Pakistan Household Use of Commercial Energy Report 320/06 May ENERGY SECTOR MANAGEMENT ASSISTANCE PROGRAMME (ESMAP) PURPOSE The Energy Sector Management Assistance Program (ESMAP) is a global technical assistance partnership administered by the World Bank and sponsored by bi-lateral official donors, since 1983. ESMAP's mission is to promote the role of energy in poverty reduction and economic growth in an environmentally responsible manner. Its work applies to low-income, emerging, and transition economies and contributes to the achievement of internationally agreed development goals. ESMAP interventions are knowledge products including free technical assistance, specific studies, advisory services, pilot projects, knowledge generation and dissemination, trainings, workshops and seminars, conferences and roundtables, and publications. ESMAP work is focused on four key thematic programs: energy security, renewable energy, energy-poverty and market efficiency and governance. 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Contents Acknowledgments..................................................................................................................... ix Abbreviations and Acronyms................................................................................................. xi Units of Measure........................................................................................................................ xi Currency Equivalents..............................................................................................................xii Executive Summary................................................................................................................... 1 Household Expenditure Survey Findings......................................................................2 Focus Group Discussions and Individual Interviews.....................................................5 Observations from the Study.........................................................................................6 1. Pakistan Energy Sector: Background.............................................................................. 9 Energy Consumption...................................................................................................10 Downstream Oil and Gas Sector.................................................................................14 Electricity Sector .........................................................................................................20 2. Household Survey Analysis.............................................................................................. 25 Descriptive Statistics...................................................................................................26 Energy Use Patterns...................................................................................................30 Provincial Differences .................................................................................................47 Comparison with Data from Utility Companies............................................................50 3. Focus Group Discussions and Interviews.................................................................... 55 Site, Group, and Individual Selection..........................................................................55 Findings from Focus Group Discussions ....................................................................57 Findings from Individual Interviews.............................................................................69 Observations...............................................................................................................71 4. Conclusions........................................................................................................................... 75 Annex 1. Energy Prices........................................................................................................... 81 Annex 2. Household Survey Description........................................................................... 97 Annex 3. Household Survey Findings, National Analysis............................................. 99 Annex 4. Household Survey Findings: Regional Analysis.......................................... 111 Punjab.......................................................................................................................111 Sindh.........................................................................................................................125 Northwest Frontier Province......................................................................................139 Balochistan................................................................................................................153 Other Areas...............................................................................................................167 Annex 5. Focus Group Discussions and Individual Interviews................................. 171 References ............................................................................................................................... 181 iii List of Tables: Table 1: Purchased Energy as Share of Household Expenditures..................................5 Table 1.1: Energy Consumption by Source in Pakistan.................................................11 Table 1.2: Energy Consumption by Sector ....................................................................12 Table 1.3: Per Capita Household Energy Consumption ................................................13 Table 1.4: Petroleum Product Consumption in Fiscal 2004 and 2005...........................14 Table 1.5: Frequency of Price Adjustments...................................................................15 Table 1.6: Representative Changes in Natural Gas Retail Tariffs .................................19 Table 1.7: Average Revenue per Kilowatt-Hour of Electricity Sold................................22 Table 2.1: Population Statistics, by Survey Year...........................................................28 Table 2.2: Comparison Statistics from World Development Indicators..........................29 Table 2.3: Nominal Monthly Expenditure per Capita in Rupees ....................................30 Table 2.4: Percentage of Households Using Different Energy Sources ........................32 Table 2.5: Number of Households in the Top Four Energy-Choice Combinations ........34 Table 2.6: Amount Purchased or Consumed by Households per Month.......................39 Table 2.7: Monthly Expenditure on Purchased Energy..................................................41 Table 2.8: Purchased Energy in Pakistan......................................................................42 Table 2.9: Nominal Monthly Household Expenditures on Purchased Energy................43 Table 2.10: Purchased Energy as Share of Household Expenditures...........................44 Table 2.11: Natural Gas Payment Distribution for Calendar 2001.................................50 Table 2.12: Electricity Connections and Monthly Payments for Calendar 2001 ............51 Table 2.13: Electricity Payment Distribution for Calendar 2001.....................................51 Table 2.14: Monthly Natural Gas Expenditure Distribution.............................................52 Table 2.15: Monthly Electricity Expenditure Distribution................................................52 Table 3.1: Geographical Distribution of Focus Groups and Individuals.........................56 Table 3.2: State of LPG Market......................................................................................70 Table 3.3: Responses from Different Groups.................................................................71 Table A1.1: Natural Gas Tariff between July 1992 and February 1996.........................82 Table A1.2: Natural Gas Tariff between May 1996 and March 2001.............................83 Table A1.3: Natural Gas Tariff between January 2002 and January 2006 ....................84 Table A1.4: Electricity Tariff between August 1993 and March 2001 ............................85 Table A1.5: Electricity Tariff between August 2001 and November 2003......................86 Table A1.6: Price Structure of Regular Gasoline...........................................................87 Table A1.7: Price Structure of Kerosene........................................................................89 Table A1.8: Price Structure of Light Diesel Oil...............................................................91 Table A1.9: Price Structure of High Speed Diesel.........................................................93 Table A2.1: HIES Questions on Fuel and Lighting.........................................................98 Table A3.1: Population and Household Breakdown as a Function of per Capita Expenditure Decile..................................................................................................99 iv Table A3.2: Monthly Expenditure per Capita in 2001 Rupees.....................................100 Table A3.3: Number of Households in Millions Using Different Energy Sources.........101 Table A3.4: Additional Number of Households Using Different Energy Sources.........102 Table A3.5: Percentage of Households for Top Five Energy-Choice Combinations by Decile, 1994...............................................................................107 Table A3.6: Percentage of Households for Top Five Energy-Choice Combinations by Decile, 1997...............................................................................108 Table A3.7: Percentage of Households for Top Five Energy-Choice Combinations by Decile, 1999...............................................................................108 Table A3.8: Percentage of Households for Top Five Energy-Choice Combinations by Decile, 2001...............................................................................109 Table A4.1: Population Statistics in Punjab, by Survey Year.......................................112 Table A4.2: Population and Household Statistics as Function of per Capita Expenditure Decile in Punjab................................................................................113 Table A4.3: Percentage of Households in Punjab Using Different Energy Sources.................................................................................................................113 Table A4.4: Number of Households in Punjab Using Different Energy........................114 Table A4.5: Number of Households in Punjab in the Top Four Energy-Choice Combinations ........................................................................................................115 Table A4.6: Monthly Household Purchase or Consumption in Punjab ........................118 Table A4.7: Monthly Expenditure on Purchased Energy in Punjab .............................119 Table A4.8: Purchased Energy in Punjab.....................................................................120 Table A4.9: Nominal Monthly Household Expenditures on Purchased Energy in Punjab...................................................................................................................121 Table A4.10 Purchased Energy as Share of Household Expenditures in Punjab........122 Table A4.11: Population Statistics in Sindh, by Survey Year.......................................125 Table A4.12: Population and Household Statistics as Function of per Capita Expenditure Decile in Sindh..................................................................................126 Table A4.13: Percentage of Households in Sindh Using Different Energy Sources.................................................................................................................127 Table A4.14: Number of Households in Sindh Using Different Energy Sources..........128 Table A4.15: Number of Households in Sindh in the Top Four Energy-Choice Combinations ........................................................................................................129 Table A4.16: Monthly Household Purchase or Consumption in Sindh ........................132 Table A4.17: Monthly Expenditure on Purchased Energy in Sindh .............................133 Table A4.18: Purchased Energy in Sindh....................................................................134 Table A4.19: Nominal Monthly Household Expenditures on Purchased Energy in Sindh.....................................................................................................................135 Table A4.20 Purchased Energy as Share of Household Expenditures in Sindh..........136 Table A4.21: Population Statistics in NWFP, by Survey Year .....................................139 Table A4.22: Population and Household Statistics as Function of per Capita Expenditure Decile in NWFP.................................................................................140 v Table A4.23: Percentage of Households in NWFP Using Different Energy Sources.................................................................................................................141 Table A4.24: Number of Households in NWFP Using Different Energy Sources .........142 Table A4.25: Number of Households in NWFP in the Top Four Energy-Choice Combinations ........................................................................................................143 Table A4.26: Monthly Household Purchase or Consumption in NWFP........................146 Table A4.27: Monthly Expenditure on Purchased Energy in NWFP............................147 Table A4.28: Purchased Energy in NWFP....................................................................148 Table A4.29: Nominal Monthly Household Expenditures on Purchased Energy in NWFP....................................................................................................................149 Table A4.30 Purchased Energy as Share of Household Expenditures in NWFP ........150 Table A4.31: Population Statistics in Balochistan, by Survey Year ..............................153 Table A4.32: Population and Household Statistics as Function of per Capita Expenditure Decile in Balochistan.........................................................................154 Table A4.33: Percentage of Households in Balochistan Using Different Energy Sources.................................................................................................................155 Table A4.34: Number of Households in Balochistan Using Different Energy Sources.................................................................................................................156 Table A4.35: Number of Households in Balochistan in the Top Four Energy- Choice Combinations............................................................................................157 Table A4.36: Monthly Household Purchase or Consumption in Balochistan...............160 Table A4.37: Monthly Expenditure on Purchased Energy in Balochistan....................161 Table A4.38: Purchased Energy in Balochistan...........................................................162 Table A4.39: Nominal Monthly Household Expenditures on Purchased Energy in Balochistan............................................................................................................163 Table A4.40: Purchased Energy as Share of Household Expenditures in Balochistan............................................................................................................164 Table A4.41: Sample Size and Population in Other Areas ..........................................167 Table A4.42: Population Statistics in Other Areas, by Survey Year.............................168 Table A4.43: Percentage of Households in Other Areas Using Different Energy Sources.................................................................................................................169 Table A5.1: Focus Group Discussion Locations in Punjab..........................................172 Table A5.2: Focus Group Discussion Locations in Sindh............................................173 Table A5.3: Focus Group Discussion Locations in Balochistan...................................175 Table A5.4: Estimated Income of Focus Groups .........................................................176 Table A5.5: Characteristics of Focus Groups ..............................................................176 Table A5.6: Individual Interviews in Punjab .................................................................177 Table A5.7: Individual Interviews in Balochistan..........................................................178 Table A5.8: Characteristics of Individuals Interviewed.................................................179 Table A5.9: Estimated Income of Individuals Interviewed............................................179 vi List of Figures: Figure 1: Historical Progression of Natural Gas, LPG, and Electricity Uptake.................3 Figure 2: Historical Progression of Wood, Biomass, and Kerosene Uptake....................4 Figure 3: Household Energy-Choice Combinations.........................................................4 Figure 4: Affordability of Energy.......................................................................................6 Figure 1.1: Crude Oil and Petroleum Product Prices.....................................................16 Figure 1.2: Saudi Aramco Contract Propane and Butane Prices...................................16 Figure 1.3: Prices of Gasoline, Kerosene, and High Speed Diesel................................17 Figure 2.1: Percentage of Households Using Free Biomass .........................................33 Figure 2.2: Historical Progression of Natural Gas, LPG, and Electricity Uptake............36 Figure 2.3: Historical Progression of Wood, Biomass, and Kerosene Uptake...............36 Figure 2.4: Natural Gas, LPG, and Electricity Uptake in Urban Pakistan ......................37 Figure 2.5: LPG, Kerosene, and Electricity Uptake in Rural Pakistan ...........................38 Figure 2.6: Energy as Share of Household Expenditures in Pakistan ...........................45 Figure 2.7: Expenditure on Natural Gas in Urban Pakistan...........................................46 Figure 2.8: Expenditure on Electricity in Urban Pakistan...............................................46 Figure 2.9: Expenditure on Electricity in Rural Pakistan................................................47 Figure 3.1: Affordability of Electricity...............................................................................57 Figure 3.2: Electricity Supply Service..............................................................................58 Figure 3.3: Illegal Connections to Electricity..................................................................59 Figure 3.4: Affordability of Natural Gas..........................................................................60 Figure 3.5: Natural Gas Supply......................................................................................61 Figure 3.6: Use of Natural Gas for Space and Water Heating.......................................61 Figure 3.7: Affordability of LPG and Kerosene...............................................................62 Figure 3.8: LPG Supply..................................................................................................63 Figure 3.9: Kerosene Supply..........................................................................................63 Figure 3.10: Switching Out of Kerosene ........................................................................64 Figure 3.11: Affordability of Biomass .............................................................................65 Figure 3.12: Ease of Biomass Purchase and Consumption...........................................66 Figure 3.13: Use of Biomass..........................................................................................67 Figure 3.14: Are Energy Sources Clean? ......................................................................67 Figure 3.15: Are Energy Sources Convenient?..............................................................68 Figure 3.16: Are Energy Sources Efficient?...................................................................69 Figure A3.1: Percentage of Urban Households Using Free Biomass..........................103 Figure A3.2: Percentage of Rural Households Using Free Biomass ...........................103 Figure A3.3: Percentage of Households Using Free Fuelwood...................................104 Figure A3.4: Percentage of Households Using Free Dung..........................................105 vii Figure A3.5: Percentage of Households Using Agricultural Residues.........................105 Figure A3.6: Percentage of Urban Households Buying Wood.....................................106 Figure A3.7: Percentage of Rural Households Buying Wood......................................107 Figure A4.1: Natural Gas, LPG, and Electricity Uptake in Punjab ...............................116 Figure A4.2: Wood, Biomass, and Kerosene Uptake in Punjab...................................116 Figure A4.3: Natural Gas, LPG, and Electricity Uptake in Urban Punjab.....................117 Figure A4.4: LPG, Kerosene, and Electricity Uptake in Rural Punjab..........................117 Figure A4.5: Energy as Share of Household Expenditures in Punjab..........................123 Figure A4.6: Expenditure on Natural Gas in Urban Punjab .........................................123 Figure A4.7: Expenditure on Electricity in Urban Punjab.............................................124 Figure A4.8: Expenditure on Electricity in Rural Punjab ..............................................124 Figure A4.9: Natural Gas, LPG, and Electricity Uptake in Sindh .................................130 Figure A4.10: Wood, Biomass, and Kerosene Uptake in Sindh...................................130 Figure A4.11: Natural Gas, LPG, and Electricity Uptake in Urban Sindh.....................131 Figure A4.12: LPG, Kerosene, and Electricity Uptake in Rural Sindh..........................131 Figure A4.13: Energy as Share of Household Expenditures in Sindh..........................137 Figure A4.14: Expenditure on Natural Gas in Urban Sindh .........................................137 Figure A4.15: Expenditure on Electricity in Urban Sindh.............................................138 Figure A4.16: Expenditure on Electricity in Rural Sindh ..............................................138 Figure A4.17: Natural Gas, LPG, and Electricity Uptake in NWFP..............................144 Figure A4.18: Wood, Biomass, and Kerosene Uptake in NWFP.................................144 Figure A4.19: Natural Gas, LPG, and Electricity Uptake in Urban NWFP...................145 Figure A4.20: LPG, Kerosene, and Electricity Uptake in Rural NWFP ........................145 Figure A4.21: Energy as Share of Household Expenditures in NWFP........................151 Figure A4.22: Expenditure on Natural Gas in Urban NWFP........................................151 Figure A4.23: Expenditure on Electricity in Urban NWFP............................................152 Figure A4.24: Expenditure on Electricity in Rural NWFP.............................................152 Figure A4.25: Natural Gas, LPG, and Electricity Uptake in Balochistan.......................158 Figure A4.26: Wood, Biomass, and Kerosene Uptake in Balochistan.........................158 Figure A4.27: Natural Gas, LPG, and Electricity Uptake in Urban Balochistan...........159 Figure A4.28: Historical Progression of LPG, Kerosene, and Electricity Uptake in Rural Balochistan..................................................................................................159 Figure A4.29: Energy as Share of Household Expenditures in Balochistan................165 Figure A4.30: Expenditure on Natural Gas in Urban Balochistan................................165 Figure A4.31: Expenditure on Electricity in Urban Balochistan....................................166 Figure A4.32 : Expenditure on Electricity in Rural Balochistan.....................................166 viii Acknowledgments This study was undertaken jointly by the Oil, Gas, and Mining Policy Division and the South Asia Energy and Infrastructure Unit, both of the World Bank, with support from the Energy Sector Management Assistance Program (ESMAP), a joint program of the United Nations Development Program and the World Bank. The financial assistance of the Government of the Netherlands through ESMAP is gratefully acknowledged. This report was prepared by Masami Kojima of the Oil, Gas, and Mining Policy Division. Other team members who worked on the study include Marc Heitner of the Oil, Gas, and Mining Policy Division, and Waqar Haider and Rashid Aziz of the South Asia Energy and Infrastructure Unit. A team led by Professor Muhammed Hafeez, Chair, Department of Sociology, University of the Punjab, contributed to the findings presented in Chapter 3 and Annex 5. The comments of the reviewers, Lucio Monari of the Finance, Private Sector, and Infrastructure Department of the Latin America and the Caribbean Region of the World Bank and Robert Bacon of the Oil, Gas, and Mining Policy Division, are gratefully acknowledged. Editorial support was provided by Nita Congress, and the publication and distribution of the Report was managed by Marjorie K. Araya of ESMAP. ix Abbreviations and Acronyms CNG Compressed Natural Gas CPI Consumer Price Index FATA Federally Administered Tribal Areas FY Fiscal Year HIES Household Integrated Economic Survey HSD High Speed Diesel LPG Liquefied Petroleum Gas NWFP Northwest Frontier Province OGRA Oil and Gas Regulatory Agency PDC Price Differential Claim PDL Petroleum Development Levy PIHS Pakistan Integrated Household Survey TOE Tons of Oil Equivalent WAPDA Water and Power Development Authority Units of Measure Btu British thermal units, a unit of energy equal to the work done by a power of 1,000 watts operating for one hour cf Cubic feet kg Kilograms kW Kilowatts kWh Kilowatt-hours M 1,000 M³ Cubic meters MM 1,000,000 V Volts xi Currency Equivalents Calendar Year Rs = US$1.00 1990 21.8 1991 23.8 1992 25.1 1993 28.1 1994 30.6 1995 31.7 1996 36.1 1997 41.2 1998 45.8 1999 51.4 2000 53.9 2001 61.8 2002 59.6 2003 57.7 2004 58.3 2005 59.6 Note: All dollar values in this report are U.S. dollars. xii Executive Summary 1 The energy sector in Pakistan has undergone a number of changes in the last decade. In the downstream oil sector, the government shifted to a formula-based pricing policy for petroleum products, although this policy was reversed in 2004 and 2005 against the backdrop of steeply rising international oil prices. The Oil and Gas Regulatory Agency has been established, setting prescribed rates for natural gas and conducting public hearings. In the power sector, several reform steps have been taken, among them reducing the generation capacity shortfall and improving bill collection. These measures affect the availability of energy as well as the prices charged to, and paid by, consumers. 2 This study aimed to examine the impact of changing availability of different energy sources and their price levels on household energy choice, consumption, and expenditures. Knowledge of household expenditures and energy consumption patterns is an essential building block for further work on possible policies in the energy sector and associated poverty and social impact analysis. To this end, the four most recent household expenditure surveys--conducted in 1994, 1997, 1999, and 2001--were analyzed in detail. The survey periods included those with low fuel prices (1999) and a time of rising world oil prices (2001). No household expenditure surveys are available from the last two years, when the increase in fuel prices has far outstripped general inflation. Nevertheless, between 1994 and 2001, prices of electricity, natural gas, kerosene, and liquefied petroleum gas (LPG) rose more rapidly than the consumer price index (CPI), potentially offering insights into how households might react to, and manage, sharply rising energy prices. The household survey analysis was supplemented by focus group discussions and individual interviews conducted in 2004 and 2005. Participants were asked questions about reasons for energy choice, the quality of service provided, evidence of increasing competition, affordability of different energy sources, benefits and costs, and commercial malpractice. 3 Many findings in this study were consistent with international experience, while others were somewhat surprising: · Access and uptake. Uptake of electricity, natural gas, and LPG increased with time in both absolute and percentage terms, indicating that increasing access outstripped the population increase. As in other countries, the rate of uptake rose with increasing income for these three energy sources. In the case of LPG, the uptake rate fell for the bottom 10 percent between 1994 and 2001. For electricity and natural gas, the uptake rate increased across all income groups. · Price increase and affordability. Prices of electricity, natural gas, kerosene, and LPG rose faster than the CPI between 1994 and 2001. Households appeared to consider natural gas affordable. Kerosene is apparently becoming too expensive, and many households have dropped it from their energy portfolio. In response to rising prices of commercial 1 2 Pakistan: Household Use of Commercial Energy energy, the uptake of free biomass increased slightly from 1994 to 2001 in both urban and rural areas. The largest percentage increase in the uptake of free biomass occurred among the bottom 40 percent in urban areas. · Consumption. Consumers did not cut back on their consumption of electricity and natural gas, but they did cut back their LPG and kerosene consumption. Consumption of fuelwood increased, especially among those making use of freely acquired fuelwood. · Energy mix. The most dominant household energy mix changed from kerosene-biomass-electricity in 1994 to biomass-electricity in the subsequent survey years. Natural gas-electricity, undoubtedly the top combination in the so-called energy ladder, moved from being the fourth most prevalent energy mix in the first three surveys to the second in 2001. These findings are detailed below. Household Expenditure Survey Findings 4 Each survey was analyzed by expenditure decile, location (urban and rural), and province. Expenditures are taken as surrogates for income. Between 1994 and 2001, household expenditures--which in this study do not include expenditures on durable goods but do include imputed values of freely acquired consumption goods-- increased a modest 6 percent in real terms. The percentages of households using natural gas (which is available primarily in urban areas), LPG, and electricity rose, while the percentage using kerosene declined. Rising electricity coverage would reduce the need to use kerosene for lighting, although kerosene lamps might still be used during power outages. Electricity did not exhibit a steady increase; in fact, the percentage using electricity did not change much for the last three surveys. 5 The uptake of biomass--fuelwood, dung, agricultural residues, and bagasse--remained essentially steady between 1994 and 2001. While fuelwood use declined somewhat, dung use showed no sign of decline, even among urban households. The percentage of households using agricultural residues increased between 1994 and 2001, as did the percentage of households making use of free biomass. This latter increase occurred in both urban and rural areas but was greater in urban areas in percentage terms. That said, the uptake rate among rural households in 2001 was almost seven times that among urban households. Increasing reliance on free biomass throughout the country is somewhat surprising, since economic development typically leads to declining availability of free biomass, while rising income enables households to switch to commercial fuels. Increasing uptake of free biomass might suggest declining cash income in real terms. As expected, the increase in the uptake of free biomass was greater among the poor than among the non-poor. The uptake of purchased fuelwood fell between 1994 and 2001, with the poor registering the greatest decline. In 2001, about one-fifth of households in both urban and rural areas were purchasing fuelwood. 6 The uptake of electricity, LPG, kerosene, biomass, and fuelwood in Pakistan, and of natural gas in urban areas (most natural gas users are urban residents), is plotted in Figure 1 and Figure 2 as a percentage of those in each expenditure decile. In Executive Summary 3 this report, decile 1 represents the poorest 10 percent of the population, and decile 10 the richest 10 percent. As expected, the uptake of electricity, natural gas, and LPG rose with increasing decile. The percentage of households using biomass fell slightly, but because the total population increased between 1994 and 2001, the number of households using biomass increased by 3 million. The percentage of households using fuelwood fell, primarily in the lower deciles; but the total number of households using fuelwood increased by almost 2 million, again because of growing population. The fall in the percentage of households using kerosene was most dramatic. Quantities examined showed that, averaged among those who reported using kerosene, monthly consumption fell during this period also. Figure 1: Historical Progression of Natural Gas, LPG, and Electricity Uptake 100 90 Electricity 1994 80 70 Electricity 2001 decile in 60 Natural gas 1994, 50 urban 40 Natural gas 2001, households urban 30 of LPG 1994 % 20 10 LPG 2001 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 7 Leading household energy choices for the entire population as well as urban and rural households are shown in Figure 3. In this figure, "biomass and electricity" indicates the percentage of households that were using only biomass and electricity to meet all their household energy needs. Nationally, more households used electricity for lighting and powering appliances, and biomass for all other needs-- cooking, heating water, and space heating--than any other energy combination in 2001. To the extent that biomass-electricity replaced biomass-kerosene, this represents progress. A disturbing sign, however, is that the percentage of households using kerosene-biomass- electricity declined sharply between 1994 and 2001, while the percentage using biomass- electricity nearly doubled. This changing pattern is to some extent caused by households substituting kerosene for biomass in cooking in response to rising kerosene prices. Because biomass is more time consuming and polluting to use, this fuel substitution 4 Pakistan: Household Use of Commercial Energy represents a socially undesirable, if not inevitable, consequence of petroleum price deregulation against the backdrop of rising world oil prices. Figure 2: Historical Progression of Wood, Biomass, and Kerosene Uptake 100 90 Kerosene 1994 e 80 cil Kerosene 2001 de 70 in 60 Biomass 1994 ds 50 Biomass 2001 40 househol 30 Wood 1994 of % 20 Wood 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 8 Natural gas-electricity is at the top of the so-called energy ladder and dominates household energy choice among urban households. In rural areas, biomass- electricity was the most common choice in 2001. Biomass-kerosene, the most common choice in 1994, was less common by 2001, presumably because an increasing percentage of households was able to replace kerosene for lighting with electricity as a result of expanding electricity supply. Figure 3: Household Energy-Choice Combinations 70 60 50 1994 holds 40 1997 1999 housefo 30 2001 20 % 10 0 gas omass rosene omass omass rosene gas an Ruralomass Ruralomass rosene Bielectricity Ke bielectricity Bi ke Natural bi electricity Urbelectricity bielectricity ke Executive Summary 5 9 Comparison of household expenditures and tariffs suggested that electricity and natural gas users did not cut back on monthly consumption in response to rising tariffs. By far the greatest expenditure was on electricity, Rs 320 per month, followed by Rs. 240 on natural gas, in 2001. Table 1 shows expenditures on purchased energy as a share of total household expenditures. The percentage share increased from 4.0 percent in 1994 to 5.6 percent in 2001, with electricity contributing the most to this increase. Table 1: Purchased Energy as Share of Household Expenditures In Percentage of Total Spending, Averaged across all Households Area and Year Electricity Natural Gas Kerosene LPG Biomass Total Energy National 1994 1.7 0.3 0.7 0.1 1.1 4.0 1997 2.4 0.4 0.5 0.2 0.9 4.4 1999 2.8 0.4 0.4 0.3 0.9 4.8 2001 3.6 0.6 0.4 0.2 0.8 5.6 Urban 1994 2.7 1.0 0.5 0.2 1.0 5.6 1997 3.2 1.3 0.5 0.3 0.9 6.1 1999 3.7 1.3 0.4 0.3 0.8 6.6 2001 4.9 1.8 0.2 0.3 0.7 7.9 Rural 1994 1.3 0.0 0.7 0.1 1.1 3.3 1997 2.0 0.0 0.6 0.2 0.9 3.7 1999 2.4 0.1 0.4 0.2 0.9 4.0 2001 3.0 0.1 0.5 0.2 0.8 4.7 Focus Group Discussions and Individual Interviews 10 Eighty-nine focus groups in Punjab, Sindh, and Balochistan, consisting of 44 all-male groups and 45 all-female groups, and 67 individuals in Punjab and Balochistan were interviewed. The responses given by focus groups on the affordability of different purchased energy sources are shown in Figure 4. 11 Focus group discussions and individual interviews confirmed that natural gas was nearly universally favored by households. It was considered affordable, clean, and efficient, and there were indications that households would accept higher gas prices than the tariffs in effect at the time of the interviews. Those who were able to obtain natural gas connections tended to drop all other fuels, and some previous users of biomass even reported fuel cost savings. 6 Pakistan: Household Use of Commercial Energy Figure 4: Affordability of Energy 70 60 Affordable 50 groups 40 cusof 30 Somewhat 20 affordable of % 10 Not 0 affordable y e G s ricit ga sen LP mass Natural Elect Kero Bio 12 Focus groups and individuals interviewed were less happy with electricity, the poor citing financial hardships caused by rising tariffs, and many expressing the view that free (illegal) use of electricity by the rich raises the overall cost of electricity supply. Many poor people who cannot afford the connection fees arrange to be connected to their neighbors' electricity or natural gas supply. Because of a rising block tariff structure, those with secondary connections end up paying more, even if their neighbors do not cheat them, because the bulk of the supply to the officially connected neighbor is charged higher tariff rates. There was suspicion that the officially connected neighbors often overcharged, becoming free riders in effect. 13 Fewer respondents believed that sector deregulation led to an increase in the number of suppliers or an improvement in the quality of supply service for kerosene than for LPG. Very few reported a marked improvement for either fuel in this regard. To the extent that the number of kerosene users seems to be falling, a decrease in the number of shops selling kerosene would be the expected market response. Only a minority replied that transporting LPG cylinders for refill was not a problem. No one cited competition in prices as a mitigating factor against recent world oil price increases, although the counterfactual (that is, how much prices would change if a different level of competition prevailed) would not be easy to establish. The respondents noted that some households substituted kerosene for biomass for cooking because of higher kerosene prices. A majority said that short-selling occurred, especially for LPG. Black marketing of LPG was also said to be common. Observations from the Study 14 The most frequently found household energy mix in rural areas was biomass-electricity. The proportion of households using only these two energy sources was nearly independent of household income, averaging 29 percent in 2001. This suggests how much progress still remains to be made before modern commercial fuels become widely used for cooking and heating in rural Pakistan. The household fuel of choice--natural gas--will not be available for most rural households given infrastructure constraints. This leaves kerosene and LPG as the only viable alternatives, with the latter Executive Summary 7 the fuel of choice for rural households that are willing and able to pay for it because of its widely recognized cleanliness and convenience. Given recent rises in the international price of LPG, the transition to LPG is likely to take a long time in rural areas. 15 For urban and peri-urban households, extending the supply of natural gas appears to be important. Focus groups and individuals with no access to natural gas universally expressed the desire to be connected to it; some voiced the opinion that they would probably not mind paying more for it; and many cited the social benefits of switching to natural gas, including a positive impact on the health of women and children from eliminating exposure to smoke, time saved from faster cooking and cleaning up afterward, time saved from not having to go out and collect fuelwood or other forms of biomass, and its relatively low cost compared to kerosene and LPG. 16 Given the seeming willingness of households to pay a premium for its convenience and cleanliness, phasing out cross-subsidies for residential users of natural gas seems political feasible. This action would free up more financial resources for gas companies, enabling them to carry out pipeline extension projects more quickly. Natural gas pricing is one policy area that merits government attention. Connecting new households to natural gas presents a challenge. The current connection fees are already subsidized, but poor households find it difficult to pay them, forcing them to resort to secondary connections as the only viable means of obtaining access and often paying more for natural gas consumption than if they were officially connected. Providing new electricity connections to all households is arguably even more important but also presents a greater challenge: unconnected households tend to be in rural areas lacking scale economies and good infrastructure. Given the large benefits of natural gas and electricity connection, it is worth pursuing avenues for enabling poor households to acquire new connections to the extent possible. Options that are revenue neutral are particularly worth considering, such as rolling connection fees into monthly payments. 17 It is not possible for the government to protect consumers from rising oil prices indefinitely. While the government may not be able to help consumers directly with prices, it is important that it continue to establish and enforce adequate technical and safety standards, and ensure consumer protection, especially against black marketing and short-selling. Both short-selling and the black market increase effective fuel prices and hurt consumers. Regulating the sector to minimize the occurrence of commercial malpractice is an important government role. A black market for LPG would emerge only in the face of a serious supply-demand imbalance and implicit price ceilings, since the sector is supposed to be fully deregulated. In this regard, the government's attempt to keep end-user prices low by informally capping ex-plant prices of LPG may actually be backfiring. 18 If a detailed poverty and social impact analysis concerned with further improvement of sector performance were to be carried out, this study would provide useful information on the responses of households to changes in energy prices and availability. In addition, new data as well as updating of data used in this study would be needed. A new household expenditure survey would be especially valuable. Additional data that would be useful include: 8 Pakistan: Household Use of Commercial Energy · Data from utility companies on national as well as provincial consumption, revenue collection, costs of supply and new connections, outages, load shedding, and losses during transmission and distribution · Links between costs incurred by utility companies and fuel tax structure, and the government budget · Recent trends in energy efficiency and scope for additional energy savings in home appliances, housing, and elsewhere. These data would enable more direct comparison of household survey data and utility company data, a better assessment of the ability of households to pay for energy at economic prices, and an analysis of options for government intervention to help the poor offset higher energy prices. At the same time, this study raised questions about available data. Some unexpected results, such as relatively high uptake rates of electricity and LPG in some rural areas, might suggest a sampling bias rather than a true reflection of higher uptake. Uncertainties about secondary or illegal connections made it difficult to reconcile household survey results with data provided by utility companies. These discrepancies are worth pursuing in future studies. 19 Allowing domestic fuel prices to rise with international prices does not imply that the government should stop helping the poor. Keeping prices artificially low distorts the market, prevents consumers from receiving correct price signals, prolongs non-essential use of energy, and slows network expansion in the case of electricity and natural gas. As some focus group participants said, as concerned as they were about increasing electricity tariffs, they were even more concerned about education fees, because they could cut back on electricity consumption but could not negotiate with schools to reduce school fees. Targeted social safety net measures--whereby support is given for the essential goods consumed by the truly needy, such as reduced fees for education--are likely to be more cost effective than means to keep prices below market- determined levels. Compensation to the poor for rising energy prices should be integrated in broader, targeted, safety net programs. 1 Pakistan Energy Sector: Background 1.1 The energy sector in Pakistan has undergone a number of changes in the last decade. In the downstream oil sector, the government has moved to a formula-based pricing policy for petroleum products, although this policy was reversed in 2004 and 2005 against the backdrop of steeply rising international oil prices. The Natural Gas Regulatory Agency was established by ordinance in 2000, and was replaced by the Oil and Gas Regulatory Agency (OGRA) in 2002. OGRA sets prescribed prices for natural gas and conducts public hearings on the matter.1 In the power sector, several reform steps have been taken, among them reducing the generation capacity shortfall and improving bill collection. These measures affect the availability of energy as well as the prices charged to, and paid by, consumers. 1.2 This study was undertaken to examine the impact of energy price levels on household energy choice, consumption, and expenditures. For further work looking at possible policies in the energy sector and associated poverty and social impact analysis, knowledge of household expenditures and energy consumption patterns would be an essential building block. To this end, the four most recent household expenditure surveys--conducted in 1994, 1997, 1999, and 2001--were analyzed in detail. The survey periods included those with low fuel prices, especially 1999, and a time of rising world oil price in 2001. No household expenditure surveys are available from the last two years, when the increase in fuel prices has far outstripped general inflation. Nevertheless, between 1994 and 2001, prices of electricity, natural gas, kerosene, and liquefied petroleum gas (LPG) rose more rapidly than the consumer price index (CPI), potentially offering insights into how households might react to, and manage, steeply rising energy prices. The household survey analysis was supplemented by focus group discussions and individual interviews conducted in 2004 and 2005, a period of rapidly rising world oil prices. The participants were asked questions about the quality of service provided, evidence of increasing competition, affordability of different energy sources, benefits and costs, and commercial malpractice. 1In this report, a "prescribed price" for natural gas is the amount a natural gas licensee would be entitled to receive from each category of its retail consumers for natural gas in order to achieve its total revenue requirement. 9 10 Pakistan: Household Use of Commercial Energy 1.3 This chapter provides a general background on the energy sector in Pakistan, focusing on oil, natural gas, and electricity. Chapter 2 discusses the findings of the household surveys. Survey analysis results by province are given in annex 4. Chapter 3 reports the findings from focus group discussions and individual interviews. Conclusions are summarized in chapter 4. Energy Consumption 1.4 Energy consumption in Pakistan grew at an average annual rate of 4 percent between fiscal 1991­92 (July to June) and fiscal 2003­04.2 The fastest growing energy source was LPG, the consumption of which increased at an annual rate of 8.4 percent during this period--albeit from a very low base--followed by coal at 5.9 percent and natural gas at 5.6 percent. The share of oil declined from 47­48 percent of total energy consumption in the 1990s to less than 40 percent by fiscal 2004, whereas the natural gas share increased from 29 percent to 35 percent. The statistics provided in the Pakistan Energy Yearbook (HDIP and MPNR various years) are show in Table 1.1. 1.5 In terms of consumption among different consumer classes, the domestic sector (residential consumers) showed the greatest increase in energy use between fiscal 1992 and fiscal 2004; this sector's energy consumption grew at an annual rate of 5.4 percent. The next highest annual growth rate (5 percent) was recorded by the commercial sector. As a share of total consumption, the industrial sector has historically led energy use, followed closely by the transport sector. In fiscal 2004, the industrial sector consumed 38 percent of total energy, the transport sector 32 percent, and the domestic sector 22 percent. Sector consumption of energy in Pakistan is given in Table 1.2. 1.6 Consumption per capita of oil, natural gas, LPG, and electricity by households can be calculated by taking consumption of different energy sources in the domestic sector and dividing by the total population. The results are shown in Table 1.3. Per capita oil consumption fell markedly during the period covered. LPG consumption grew at an average annual rate of more than 6 percent, and natural gas and electricity at 4­4.5 percent each. Note that LPG domestic consumption data should be interpreted with caution, as it is difficult to separate out LPG sold to small commercial establishments from that sold to households. Up to fiscal 2002, LPG consumption in the domestic sector was estimated by assuming that three-quarters of net supplies of LPG were consumed by that sector in the absence of more detailed data. 2Fiscal 2004 hereafter. Chapter 1: Pakistan Energy Sector: Background 11 3.9 3.1 2004 38.5 34.8 16.2 10.2 82,063 FY ,145,36511 380,370 2,703,906 4,6 10,072,264 28,983,968 4.6 3.1 2.8 2003 41.3 34.6 16.3 886 14,902 FY 352,766 9,1 1,691,274 4,288,227 10,865,717 26,312, 11 8.5 3.1 1.4 2002 43.3 33.5 16.1 FY 339,704 1,088,5931 8,568,1 1,484,994 4,122,661 25,604,063 1.5 1.1 2001 45.9 32.2 15.7 -0.1 FY 277,809 1,586,7911 8,141,996 1,292,480 3,956,724 25,255,801 na 0.5 0.1 4.9 2000 47.3 32.0 14.7 FY 257,688 Pakist 1,960,4491 8,092,767 1,261,579 3,712,584 25,285,067 in 7.5 0.1 3.3 1999 47.7 31.0 14.6 12,206 FY 232,525 1,509,1201 7,481,699 1,362,823 3,526,038 24,1 Source 1 4.5 9.0 3.2 1998 46.9 31.3 15.5 by FY 221,282 7,297,21 1,258,159 3,629,926 10,938,831 23,345,408 19 3.6 9.0 1997 48.0 29.4 15.4 -2.2 FY 202,865 6,650,445 1,432,1 3,478,669 10,856,223 22,620,321 Consumption 3.6 19 0.1 9.4 1996 48.3 29.8 14.7 FY 222,637 1,172,0701 6,887,163 1,449,084 3,399,1 23,130,073 Energy 4.6 9.0 3.8 1995 47.7 29.8 15.2 1,229 1.1: FY 184,791 6,31 1,343,151 3,212,650 10,091,877 21,143,698 ableT 7.7 7.0 4.7 1994 47.4 29.3 14.9 FY 132,954 9,668,274 5,970,644 1,561,546 3,044,325 20,377,743 4.7 7.0 7.8 1993 47.2 29.4 15.3 years). FY 145,824 9,183,098 5,719,472 1,440,567 2,972,001 19,460,962 6.7 8.0 6.4 (various 1992 47.2 29.1 15.3 FY 144,790 . 8,517,346 5,258,439 1,368,694 2,759,024 18,048,293 earY MPNR % and E OT, Fiscal E HDIP E E E E ec OT otalT OT otalT OT otalT otalT OT, otalT OT Growth, FY= of of of of Sour Oil, % Gas, % Coal, % Electricity % GPL of % tal,oT Annual Note: Source: 12 Pakistan: Household Use of Commercial Energy 918 2004 ,160 10.2 03,662 FY 927,633 734,202 658,393 6,278, 1,11 9,281 150 6.1 0.1 9.1 172 28,983,968 2004 FY 886 2.8 2003 FY 851,857 694,783 584,103 147 0.2 0.1 8.1 161 6,092,468 9,318,309 8,771,365 2003 26,312, FY 13 1.4 2002 FY 809,1 691,758 786,285 143 4.2 0.1 8.1 162 5,895,458 8,808,974 8,612,474 2002 25,604,063 FY 1 -0.1 2001 FY 777,825 666,475 691,785 140 3.3 0.1 4.1 163 5,825,500 8,608,41 8,685,806 2001 25,255,801 FY 4.9 2000 6.3 0.1 3.1 FY 779,689 675,026 672,306 136 157 2000 5,709,084 8,663,489 8,785,472 25,285,067 FY households. 3.3 Sector 1999 12,206 Consumption 133 8.3 0.1 2.1 by 146 FY 756,618 717,323 701,381 1999 by 5,343,706 8,290,687 8,302,492 24,1 FY 3.2 consumed 1998 Energy 130 0.4 0.1 2.1 144 FY 684,454 820,135 741,457 1998 was 5,356,095 8,000,864 7,742,402 23,345,408 FY -2.2 Consumption 1997 127 1.4 9.0 1.1 supplies population. 140 FY 726,549 857,193 654,307 1997 net for 4,829,408 8,014,362 7,538,503 22,620,322 Household FY of a cent (2006) 9.4 Energy 1996 124 0.5 9.0 2.1 138 per 1996 FY 693,730 805,804 659,457 Capit 75 Bank 4,753,612 8,721,304 7,496,164 23,130,071 FY 1.2: Per that orld W 3.8 1995 121 0.5 8.0 1.1 ableT 129 1995 FY 635,741 788,978 569,726 1.3: 4,283,678 7,881,219 6,984,357 FY assumes 21,143,699 4.7 1994 ableT 811 2.5 7.0 8.0 2001 consumption; 120 1994 FY gy FY 597,270 790,693 558,269 3,790,280 7,896,944 6,744,287 FY 20,377,743 ough ener thr for 7.8 1993 151 2.3 6.0 9.0 511 1993 years). FY 561,653 758,120 559,605 3,598,483 7,561,875 6,421,225 vailable.A FY years) 19,460,961 Not = consumption 1992 N.A. (various 211 7.5 6.0 9.0 102 1992 (various FY 516,263 769,487 510,122 N.A. FY LPG. 3,333,214 7,004,067 5,915,139 18,048,292 ear;Y MPNR earY MPNR E E % E OT E and and E OT OT OT E OT OT Fiscal (millions) Fiscal (kWh) E HDIP Govt, OT Growth, HDIP FY= FY= (kg) (MMBtu) (kg) Sector Domestic, Commercial, Industrial, Agriculture, ransport,T Other tal,oT Annual Note: Source: Parameter Population Oil Gas LPG Electricity Notes: Sources: Chapter 1: Pakistan Energy Sector: Background 13 1.7 Natural gas consumption per capita grew steadily until fiscal 1998, after which it remained at about the same level. This trend could be taken to suggest that aggregate consumption grew at the same rate as the population. Because the last census in Pakistan was conducted in 1998--giving a total population of 132,352,000, 32.5 percent of whom were residing in urban areas--subsequent population figures in Table 1.3 are estimated. Electricity consumption shows an increase until fiscal 2001, at which point per capita consumption remained essentially unchanged for three years, followed by an increase in fiscal 2004. All in all, during the period examined, per capita electricity consumption increased nearly 70 percent, which strongly indicates increasing connection to electricity by previously unconnected households. Data estimation difficulties notwithstanding, expansion of LPG use is evident, doubling between fiscal 1992 and fiscal 2004. 1.8 Consumption data during the last two years are available from other sources. Despite rising oil prices, energy consumption grew 8 percent in 2004 (Business Recorder 2005c). Consumption of petroleum products rose 10 percent between fiscal 2004 and fiscal 2005. This increase was partly a result of power plants turning to fuel oil following droughts, higher consumption of high speed diesel (HSD) due to growth in agriculture, and increases in the sale of jet fuel. Markedly higher oil prices might have moderated consumption growth, but the government capped fuel prices to curb inflation. Consumption of kerosene and light diesel oil, already low, fell further during this period. Consumption in metric tons for the two fiscal years is shown in Table 1.4. Table 1.4: Petroleum Product Consumption in Fiscal 2004 and 2005 Product Fiscal 2004 Fiscal 2005 Growth (%) Fuel Oil 3,629 4,555 26 HSD 7,421 7,696 4 Gasoline 1,257 1,329 6 Aviation Fuel 795 920 16 Kerosene 258 231 -10 Light Diesel Oil 190 160 -16 Total 13,548 14,892 10 Note: Consumption is expressed in thousand metric tons. Source: Business Recorder (2005b). Downstream Oil and Gas Sector 1.9 There are six refineries in Pakistan. According to the Ministry of Petroleum and Natural Resources, indigenous crude oil meets 18 percent of total demand; the remaining 82 percent of demand is met through imports of crude oil, high speed diesel, and fuel oil. In fiscal 2005, 8.3 million tons of crude oil, 4.2 million tons of HSD, and 1.5 million tons of fuel oil were imported, at a total cost of $4.5 billion. For fiscal 2006, import projections are 8.9 million tons for crude, 4.6 million tons for HSD, and 1.8 million tons for fuel oil (MPNR 2005). 14 Pakistan: Household Use of Commercial Energy 1.10 Pakistan has seven oil marketing companies: Pakistan State Oil, Shell Pakistan, Caltex Pakistan, Total Parco, Attock Petroleum, Admore Gas, and Pearl Parco. Three more licenses were recently issued to Hascombe, Overseas Oil Trading Company, and Askar. State-owned Pakistan State Oil supplies 65 percent of total demand. Its market share is 44.7 percent for gasoline, 60 percent for HSD, and, 80 percent for furnace oil (Frontier Star 2005). 1.11 Since July 1, 2001, the Oil Companies Advisory Committee has been authorized to review, set, and announce the ex-depot prices of gasoline, kerosene, and light diesel oil twice a month in accordance with the approved pricing formula. This pricing formula is based on Arab Gulf fuel prices and consists of ex-refinery/import- parity price, customs and excise duty, petroleum development levy (PDL), distribution margin for oil marketing companies (currently 3.5 percent of ex-depot sale price), dealers' commission (4.0 percent of ex-depot sale price), inland freight equalization margin (which is based on actual transportation costs determined by oil marketing companies), and a 15 percent general sales tax. Import duties of 6 percent on kerosene and light diesel oil and of 10 percent on HSD have been imposed since July 2002, offering protection to domestic refineries. Fuel oil and aviation fuel have been fully deregulated; HSD is partially deregulated. The frequency of upward and downward price adjustments for gasoline and diesel between July 1, 2001, and October 31, 2005, is shown in Table 1.5. Table 1.5: Frequency of Price Adjustments Number of Times Prices Were Gasoline Diesel Increased 45 42 Decreased 23 23 Unchanged 37 40 Source: MPNR (2005). 1.12 LPG was deregulated in 2000. Seventy-four provisional licenses have been issued for marketing LPG, and 30 companies are thus far operational. OGRA has also issued eight LPG production licenses (Business Recorder 2005a). The licensed private firms are free to import LPG, and marketing companies can set prices based on prevailing market conditions. In practice, an informal price ceiling continues to be applied to domestically manufactured LPG. This ceiling is currently about $300 per ton, against international LPG prices exceeding $500 per ton since October 2005. This implicit price ceiling discourages LPG imports, creating a shortage, a "black market," and high prices paid by end users. In winter, LPG consumption rises above domestic production capacity, historically requiring LPG imports. With the coming on stream of a new plant at Jam Shoro in Sindh with a daily capacity of 500 tons, there could be surplus LPG in Pakistan in summer in the future. 1.13 What led to recent government intervention in fuel product pricing was the steep rise in world oil prices in 2004 and 2005. Prices of Saudi Arabian Light and of Arab Gulf gasoline, kerosene, and diesel since January 1990 are shown in Figure 1.1. Oil prices essentially doubled between January 2004 and August 2005. LPG prices since Chapter 1: Pakistan Energy Sector: Background 15 January 1995 are shown in Figure 1.2. Rising international prices of crude oil and petroleum products have created serious concerns about inflation and led the government to cap retail prices through fuel tax reductions or waivers and reimbursements to oil marketing companies through a price differential claim (PDC), introduced in 2004. Figure 1.1: Crude Oil and Petroleum Product Prices 80 70 60 Arabian rrelab Light 50 rep Gasoline 40 US$30 Kerosene 20 Diesel 10 0 09- 29- 49- 69- 89- 00- 20- 40- 60- Jan Jan Jan Jan Jan Jan Jan Jan Jan Note: Petroleum product prices are for premium gasoline, jet kerosene, and gas oil with 0.5 percent sulfur in the Persian Gulf; oil prices are for term prices for Arabian Light, free-on-board for Asia. Source: Energy Intelligence (2006). Figure 1.2: Saudi Aramco Contract Propane and Butane Prices 700 600 n 500 400 US$/to Propane in 300 Butane LPG200 100 0 59- 69- 79- 89- 99- 00- 10- 20- 30- 40- 50- 60- Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan Source: Platts Commodity News (various issues). 16 Pakistan: Household Use of Commercial Energy 1.14 The government capped domestic sale prices repeatedly in 2004 and 2005 (MPNR 2005). The government also reduced the PDL in May 2004 and eliminated the PDL on all petroleum products except aviation fuel in August 2004. Since then, PDLs at varying levels have been brought back from time to time. The precise dates when the PDL was eliminated can be determined from the price structures given in annex 1. For example, the government waived the PDL on kerosene entirely between August 1 and December 15, 2004, and between March 1, 2005, and end-February 2006 (at the time of this report writing). In addition, the government introduced a PDC beginning on August 16, 2004, whereby fuel prices were subsidized and oil companies reimbursed for the subsidy. The PDC particularly targeted kerosene and diesel. In November 2005, the Ministry of Petroleum and Natural Resources estimated that the differences between the prices of kerosene, HSD, and light diesel oil, based on the pricing formula and the actual prices in effect, were Rs 7.13, Rs 4.47, and Rs 4.13 per liter, respectively. As of October 31, 2005, the total reduction in revenues to the government was Rs 70 billion (about $1.2 billion), and the PDC had amounted to Rs 21.4 billion ($360 million) (MPNR 2005). The government was able to carry a large fiscal burden to keep fuel prices low in part because of rising revenue--the total government revenue was 7.6 percent higher in fiscal 2005 than in fiscal 2004 (Pakistan Press International 2005)--and falling fiscal deficit. These trends enabled the government to freeze domestic prices of gasoline, kerosene, and diesel from May to mid-December 2004 and from mid-March to June 2005. Price structures for gasoline (called motor spirit), kerosene, light diesel oil, and HSD are shown in annex 1. The ex-depot prices of gasoline and kerosene, notified by the Oil Companies Advisory Committee, and the retail prices of HSD, reported by Pakistan State Oil, since June 30, 2003, are shown in Figure 1.3. The government's attempts at price smoothing are evident. Figure 1.3: Prices of Gasoline, Kerosene, and High Speed Diesel 60 50 Gasoline 40 liter Kerosene 30 per Rs 20 HSD 10 0 Jun-03 Dec-03 Jun-04 Dec-04 Jun-05 Dec-05 Note: Ex-depot prices are shown for gasoline and kerosene, and retail prices for HSD. Sources: www.ocac.org.pk/price.asp for gasoline and diesel, www.psocl.com/products/pol.asp for HSD. 1.15 Natural gas retail tariffs continue to be regulated with significant variation across consumer classes. Earlier, the government set a goal of eliminating most gas tariff distortions by June 2005 to be more cost-reflective, including increasing tariff rates for Chapter 1: Pakistan Energy Sector: Background 17 households except lifeline consumption, and making the subsidy to the fertilizer industry transparent. However, achievement of this goal has fallen behind schedule. In most deregulated gas markets, residential tariffs are considerably higher than those for larger users to reflect the higher cost of supply to small users. In Pakistan, industrial users are cross-subsidizing residential users, as shown in Table 1.6 and detailed in annex 1. It should be noted that LPG cylinders used by households in Pakistan contain 11.8 kilograms (kg) each, and, as such, the first block for residential users of 100 cubic meters (m³) per month is equivalent to more than 7 LPG cylinders. The first block for natural gas is therefore far in excess of the equivalent average monthly LPG consumption by even well-to-do urban households, about one-and-a-half to two cylinders. In fiscal 2002, about three-quarters of natural-gas-using households consumed less than 100 m³ per month according to the data provided by the two gas transmission and distribution companies (World Bank 2003). 1.16 The Pakistan Oil and Gas Sector Review (World Bank 2003) assessed developments in the oil and gas sector and made a number of policy recommendations. In particular, it reported that the government still played a major role in the gas sector, determining retail tariffs (OGRA determines the prescribed prices only for gas utilities and has an advisory role with respect to retail prices); allocating gas to various end consumers as long as shortages persisted; and, as majority owner of the two transmission and distribution companies, approving the companies' capital expenditure programs. Retail gas tariffs were not consistent with the cost of service to different classes of consumers. Large subsidies were being given to one-fifth of households in Pakistan that happened to have access to natural gas, nearly all of them in urban areas; and to the fertilizer industry. In economic terms, the annual subsidies amounted to some Rs 9 billion for households and Rs 14 billion for the fertilizer industry. More than 90 percent of the volume of gas sold to households was at the subsidized tariff applicable to the first two slabs, and even high-volume consumers were entitled to discounts on the first two slabs. The better-off urban households were the primary beneficiaries of this tariff structure. To stop cross-subsidization of households by other sectors, an average increase in tariffs of approximately 70 percent for high gas-consumption households was proposed, to be phased in over several years. As a first step, the report recommended reducing the size of the first slab, to be provided at a lifeline rate, to 50 m³ per month during the heating season and 30 m³ during the rest of the year. Notwithstanding this reduction in the size of the subsidized first block, gas would still remain far cheaper than alternative modern fuels for households. 18 Pakistan: Household Use of Commercial Energy Table 1.6: Representative Changes in Natural Gas Retail Tariffs Category 01-07- 19-08- 09-06- 14-06- 16-05- 01-01- 16-08- 01-07- 01-07- 01-07- 01-01- 1992 1993 1994 1995 1996 1997 1999 2000 2003 2005 2006 Domestic (i) Up to 3.55 Mcf/Month 31.00 35.65 36.36 40.24 42.69 49.09 55.23 63.51 69.31 73.95 80.98 (Up to 3.3719 MMBtu) (ii) 3.55 to 7.1 Mcf/Month 34.10 39.21 42.35 47.89 50.76 58.38 65.58 75.53 104.42 127.62 147.41 (3.3719-6.7438 MMBtu) (iii) 7.1 to 10.64 Mcf/Month (6.7438- 38.75 46.50 50.22 65.38 69.30 79.70 89.66 103.11 167.06 204.17 235.84 10.1157 MMBtu) (iv) 10.65 to 14.2 Mcf/Month 46.50 55.80 60.26 78.45 83.16 95.63 107.58 123.72 217.32 265.59 306.79 (10.1157-13.4876 MMBtu) (v) Above 14.2 Mcf/Month 46.50 55.80 60.26 78.45 83.16 95.63 107.58 123.72 217.32 265.59 306.79 (Above 13.4876 MMBtu) Average Price = 0.5*(i)+0.3*(ii)+ 34.26 39.82 41.93 48.87 51.82 59.59 67.01 77.10 104.42 122.24 138.98 0.1*(iii)+0.05*(iv)+0.05*(v) Commercial 61.41 70.62 76.27 94.57 100.24 115.28 135.02 155.27 193.82 234.67 271.07 Industrial (i) General 54.57 62.75 67.77 84.05 89.09 102.46 120.00 138.00 172.26 208.56 240.91 (ii) Cement 39.54 39.54 67.77 84.05 89.09 102.46 120.00 138.00 209.78 240.28 277.55 CNG Station -- -- -- 65.89 70.50 70.50 120.00 138.00 172.26 208.56 240.91 Fertilizer SNGPL & SSGC Systems (i) For Feedstock Pak-American Fertiliser 22.50 22.50 22.50 27.90 29.57 34.01 34.01 34.01 36.77 36.77 36.77 FFC Jordan -- -- -- -- -- -- 34.93 34.93 36.77 36.77 36.77 Dawood/PakArab 22.50 22.50 22.50 27.90 29.57 34.01 55.20 55.59 67.26 83.24 83.24 Pak-China/Hazara 22.50 22.50 22.50 27.90 29.57 34.01 60.08 60.08 71.38 83.24 88.34 (ii) For Fuel 54.73 66.22 66.22 84.05 89.09 102.46 120.00 138.00 172.26 208.56 240.91 Mari System (i) For Feedstock FFC/Engro Chemical (New) 9.75 9.75 9.75 9.75 9.75 9.75 9.75 9.75 13.09 -- -- FFC/Engro Chemical (Old) 9.75 9.75 9.75 12.09 12.82 23.39 43.76 43.76 66.31 82.06 82.06 Pak Saudi 9.75 9.75 9.75 12.09 12.82 23.39 34.43 34.43 66.31 82.06 82.06 (ii) For Fuel 43.44 52.56 52.56 66.62 70.62 81.21 95.05 109.31 172.26 208.56 240.91 Power SNGPL & SSGCL Systems 54.57 62.75 67.77 84.05 89.09 102.46 120.00 138.00 172.26 208.56 240.91 Liberty Power Limited -- -- -- -- -- -- -- 156.01 235.77 262.03 303.25 Raw gas sold to WAPDA's Gudu Power Station (i) Sui Field (917Btu) 30.68 43.73 47.23 66.10 78.10 92.08 107.84 124.02 -- -- -- (ii) Kandhkot (866Btu) 28.92 41.24 44.54 62.37 73.70 86.89 101.77 117.04 166.41 201.47 232.72 (iii) Mari (754) 25.05 35.78 38.64 54.17 64.02 75.50 88.42 101.68 161.85 195.95 226.34 (iv) Sara/Suri Fields -- -- -- -- -- -- -- -- 161.85 195.95 -- Notes: CNG = Compressed Natural Gas for automotive use; FFC = Fauji Fertiliser Company; SNGPL = Sui Northern Gas Pipelines Limited; SSGCL = Sui Southern Gas Company Limited; WAPDA = Water and Power Development Authority; -- = Not Applicable. Tariffs are in Rs per MMBtu except for residential consumers, for whom tariffs are expressed as Rs per thousand cubic feet. Source: OGRA. Chapter 1: Pakistan Energy Sector: Background 19 Electricity Sector 1.17 The Pakistan government has been implementing power sector reforms since the mid-1990s aimed at improving the sector's operational performance, putting the sector on a commercial footing, and attracting private investment for capacity expansion and through the divestiture and privatization of existing public sector assets. Key elements of the reform program have been to: · Unbundle the Water and Power Development Authority (WAPDA)-- which supplied electricity to all areas of the country except Karachi--into a number of autonomous entities to handle thermal and hydro-power generation, transmission, and distribution · Implement steps to improve the operational and financial performance, as well as managerial and commercial orientation, of the public sector entities · Establish an independent regulatory agency to set technical, safety, and performance standards and tariffs (which would enable the sector entities to cover their operational and investment requirements without recourse to the government budget) and to regulate the sector · Provide incentives for private investment in thermal generation as detailed in the 1994 Independent Power Producer Policy · Privatize existing assets, starting with the Karachi Electric Supply Corporation. 1.18 The first four steps in this phase of the reforms have largely been implemented, albeit with delays. The corporatization of WAPDA is nearing completion, and several independent companies and entities now handle power generation, transmission, and distribution in their respective service areas. The Independent Power Producer Policy was successful in achieving its intended objective: to enhance generation capacity and overcome the severe capacity shortfalls that were experienced during the early 1990s. About 3,000 megawatts of thermal generating capacity was installed by the private sector between 1997 and 2001. As a result, capacity constraints--and rationing of supplies to consumers during peak demand periods--have been greatly reduced. The National Electric Power Regulatory Authority was established by an act of parliament in December 1997. In accordance with its mandate, the regulatory authority has: · Issued licenses to generation, transmission, and distribution entities · Issued rules, regulations, and performance standards to govern the operations of the entities in the sector · Held tariff hearings and determined tariff rates (and other charges) for various functions and consumer categories. 1.19 Plans to privatize the power sector got off to a slow start. With the exception of the Kot Addu Power Plant, which was privatized in 1996, there were no further asset sales until 2005. The sale of the Karachi Electric Supply Corporation to a group of local and foreign investors, completed in late 2005, is expected to provide a boost to the privatization program. 20 Pakistan: Household Use of Commercial Energy 1.20 Efforts have also been made to improve operational and commercial performance, but with limited success to date. Technical and nontechnical losses remain high (25­27 percent) and the government provides about Rs 50 billion annually to cover operating costs and investment needs. However, substantial progress has been made in some areas, such as in improving revenue collection and reducing arrears. For example, in the late 1990s, consumer receivables were about 20 percent of the amounts billed (and much higher for some companies and in some regions within the companies). Bill collection from the public sector, including the government, was especially challenging. Partly reflecting strong and sustained efforts by the management of WAPDA and of the companies set up to handle generation, transmission, and distribution functions, most distribution companies in recent years have achieved 100 percent bill collection from private consumers and (broadly) acceptable levels of collection from the public sector. 1.21 The improvement in bill collection has helped allay further deterioration in the sector's finances--an important development given that revenues collected per unit of electricity sold declined in nominal terms between fiscal 1999 and fiscal 2000, and stagnated in real terms between fiscal 1999 and 2001 (see Table 1.7). The higher collection rate may also explain why consumers responded, during the focus group discussions and individual interviews conducted for this study, that they were paying more for electricity than in the past (see chapter 3): the utilities are serious about enforcing payment and disconnecting defaulting consumers. 1.22 Limited progress has been made in reducing cross-subsidies through larger tariff increases for the low-tariff categories and smaller increases for consumers whose rates were already higher than the system average. As shown in Table 1.7, tariff increases for residential and agricultural consumers exceeded that for the CPI, while those for industrial and commercial users were significantly lower. 1.23 Electricity tariff rates for household/residential consumers today range from as low as approximately Rs 1.34 per kilowatt-hour (kWh), or $0.022/kWh, for consumption of up to 50 kWh per month, to as high as Rs 6.67/kWh, equivalent to about $0.11/kWh, for monthly consumption of more than 1,000 kWh. For consumption exceeding 50 kWh, the tariff is Rs 2.48/kWh for the first 100 kWh, which is approximately $0.04/kWh. The evolution of electricity tariffs is given in annex 1. Based on the data provided by WAPDA and electricity distribution companies, this tariff structure translated to an average rate for residential users of Rs 3.34/kWh (less than $0.06/kWh) during fiscal 2003. The cost of supply to households is well in excess of $0.08/kWh. 1.24 The average revenues collected from different consumer classes by WAPDA and electricity distribution companies between fiscal 1996 and fiscal 2003 are given in Table 1.7. Residential tariffs were the lowest among all consumer classes up to fiscal 1998. These tariffs remain the second lowest, despite the fact that the cost of supply is much higher than those for industrial and commercial users. This pattern of residential consumers paying less than industrial and commercial users is fairly typical of electricity tariffs in developing countries in the early stages of power sector reform. Similar to the situation for natural gas, as the restructuring proceeds to reflect the level of competition and the cost of service delivery to different consumer categories, tariffs for industrial and Chapter 1: Pakistan Energy Sector: Background 21 commercial users decrease at the expense of residential consumers who are the beneficiaries of cross-subsidy arrangements. Table 1.7: Average Revenue per Kilowatt-Hour of Electricity Sold Growth Consumer Class FY1996 FY1997 FY1998 FY1999 FY2000 FY2001 FY2002 FY2003 (%) Nominal Tariff in paisas per kWh Domestic 136 156 185 235 233 259 318 334 13.7 Commercial 537 565 665 718 703 704 708 703 3.9 Industry 336 375 411 488 416 416 419 442 4.0 Bulk Supply 295 286 341 401 406 424 489 504 8.0 Agriculture 131 163 187 233 231 258 293 333 14.3 System Average 136 156 185 235 233 259 318 334 13.7 Tariff in paisas per kWh Adjusted for CPI, FY2003 Base Year CPI 74.1 82.2 89.3 93.9 97.9 101.6 104.8 108.1 5.5 Domestic 193 198 219 263 252 268 318 334 8.2 Commercial 761 716 787 804 760 729 708 703 -1.1 Industry 476 475 487 546 450 431 419 442 -1.1 Bulk Supply 418 362 404 449 439 439 489 504 2.7 Agriculture 186 206 221 261 250 267 293 333 8.7 System Average 314 311 337 368 346 349 373 395 3.3 Tariff in US cents/kWh Exchange Rate, Rs to $1.00 33.48 38.89 43.05 46.66 51.74 58.22 61.52 58.57 -- Domestic 4.06 4.01 4.30 5.04 4.50 4.45 5.17 5.43 -- Commercial 16.04 14.53 15.45 15.39 13.59 12.09 11.51 11.43 -- Industry 10.04 9.64 9.55 10.46 8.04 7.15 6.81 7.19 -- Bulk Supply 8.81 7.35 7.92 8.59 7.85 7.28 7.95 8.19 -- Agriculture 3.91 4.19 4.34 4.99 4.46 4.43 4.76 5.41 -- System Average 6.62 6.32 6.61 7.04 6.19 5.79 6.06 6.41 -- Notes: -- = Not Applicable. Calendar 2000 = 100. Sources: Collected revenues from WAPDA, exchange rate from the IMF (2006), and the CPI from World Bank (2006). 1.25 Table 1.7 shows that the largest percentage increase in the revenue collected per kWh occurred in the agricultural sector, closely followed by the domestic sector. The revenues collected in these two sectors are still considerably lower than for other consumers, and less than one-half of those for commercial users. Nevertheless, in terms of the rate at which their average tariff rates were increased, residential consumers--the focal consumers of this study--paid nearly 14 percent more each year on average in nominal terms, and 8.2 percent more in real terms. In the seven-year period between fiscal 1996 and fiscal 2003, the rate of power tariff increase outstripped inflation 22 Pakistan: Household Use of Commercial Energy by 68 percent for residential consumers. By way of comparison, during the same period, natural gas tariff rates for residential consumers increased at an annual rate of 9.0 percent in nominal terms and 3.2 percent in real terms. In both cases, tariff increases exceeded inflation. 2 Household Survey Analysis 2.1 This chapter summarizes the findings from the four most recent household expenditure surveys in Pakistan. The objective of the survey data analysis was to assess how household energy choice and consumption patterns have changed over the years in response to developments in the energy sector and in the overall economy--in particular, in the face of changing household income, rural-urban migration, shifts in prices, and the varying availability of a specific fuel or electricity--as well as how expenditures on energy compared to overall household expenditures and cost-of-living adjustments. 2.2 The data from four surveys were studied for this purpose: the 1993­94 and 1996­97 Household Integrated Economic Survey (HIES), and the 1998­99 and 2001­02 Pakistan Integrated Household Survey (PIHS). In 1998, HIES and PIHS were merged; as a result, minor modifications were made to the data collection methods and questionnaire. The 2001­02 survey was the second survey after the merger. The surveys asked questions about expenditures, including those on electricity, natural gas, LPG, kerosene, and various forms of biomass. Data from areas outside of the four provinces were not available in every survey. For example, the 1998­99 PIHS had data on Azad Jammu and Kashmir, the Northern Areas, and the Federally Administered Tribal Areas (FATA), but data from these three areas were not available in the 1993­94 HIES. The total sample size ranged from about 14,600 to 16,150 in the four surveys. The precise timing of the data collection for the 1993­94 and 1996­97 surveys is not known, but they are believed to have been carried out in calendar 1994 and calendar 1997, respectively.3 The bulk of the 1998­99 survey was carried out in calendar 1999, and of the 2001­02 survey in calendar 2001. A detailed description of the survey questionnaire is given in annex 2. 2.3 For each survey, the total population was divided into 10 deciles on the basis of expenditure per capita (excluding expenditures on durable goods) adjusted for geographical differences in the cost of living. In this report, decile 1 represents the lowest expenditure per capita and decile 10 the highest. Each expenditure decile contains the same number of individuals. Because energy is purchased by households, and there are economies of scale in household use of energy--one light bulb can provide light for 3 Because the 1993­94, 1996­97, and 1998­99 HIES are believed to have followed the same survey schedule, timing of the data collection for the first two surveys (which is not explicitly known) is deduced from the timing of the data collection for the 1998­99 survey (which is known). 23 24 Pakistan: Household Use of Commercial Energy reading and other activities whether one person or five people are in the room--an alternative methodology is to assign the same number of households to each decile. However, since the household size decreases almost twofold from the lowest to the highest decile, assigning the same number of households gives a disproportionately large weight to higher expenditure individuals. For this reason, each decile group was assigned the same number of individuals rather than households. Because there are many more poor households in rural areas, the lower deciles are populated predominantly by rural residents; conversely, there are more urban residents and households in the highest decile than in rural areas, as shown in annex 3. 2.4 Household surveys asked about the values in rupees of fuelwood, kerosene, charcoal, coal and peat, dry dungcakes, natural gas, LPG, electricity, bagasse, and agricultural wastes for fuel purposes (such as cotton stick, sawdust, shrubs, weeds, and tobacco sticks) consumed. Where a household obtained an energy source for free (given in kind, or collected or grown by self), imputed cash values were recorded. The surveys also asked about the quantities of the energy sources consumed with the exception of natural gas and electricity. In this report, biomass is defined to comprise fuelwood, dry dungcakes, bagasse, and agricultural wastes. Outliers were examined only for kerosene and LPG, for which both quantities consumed and rupees paid were reported. Prices paid were computed from these two pieces of information, and those with extremely low or high prices, or quantities that were much too high for consumption by households, were omitted from analysis.4 For electricity and natural gas, only expenditures (and not amounts consumed) were reported, and it was not possible to judge if the reported figures could be considered outliers.5 2.5 The surveys were analyzed nationally and by province. Each geographical region was further split into urban and rural areas since rural household energy use patterns are distinctly different from those in urban areas. The numbers of households using and buying a specific energy source, the amounts consumed and purchased (which are different if an energy source is freely available), the amount of cash paid, and the imputed values in the case of noncash acquisition were examined. The amounts spent were compared to total household expenditure (which does not include expenditures on durable goods). Some numbers presented in this report are taken unedited from the statistical software package Stata and are not intended to indicate the number of significant figures. Descriptive Statistics 2.6 According to the survey findings, Pakistan's total population increased from 91 million in 1994 to 129 million in 2001. These estimates are considerably smaller than those given by the World Development Indicators: 119 million in 1994 and 141 4This resulted in 45 and 17 observations being deleted from the 1993­94 and 1996­97 HIES, respectively. In addition, four observations, for which the respondents appeared to report kilograms of LPG purchased rather than number of cylinders, were accordingly adjusted in the 1996­97 HIES survey data. 5While attempts could have been made to identify outliers on the basis of expenditures alone, as shown at the end of this chapter, expenditures reported by electricity generation companies are higher than those reported in the household surveys; hence, households with very high expenditures were not deleted. Chapter 2: Household Survey Analysis 25 million in 2001 (World Bank 2006). The last national census conducted in Pakistan, in 1998, reported a total population of 132 million. The population figures calculated from the surveys are incomplete because the 1993­94 HIES included only the four major provinces, and the 2001­02 PIHS did not include the FATA. Thus, the survey findings are not truly representative of the entire country. The share of the urban population declined slightly from 30 to 28 percent according to the survey findings, against 32.5 percent identified in the 1998 national census, despite the omitted areas in the surveys being predominantly rural. These comparisons give some indication of the surveys' limitations. 2.7 The total number of households increased by 4.4 million from 14.1 million to 18.5 million. Of this increase, 70 percent of additional households were in rural areas. Household expenditures are listed in nominal and real terms in Table 2.1. They include imputed costs of freely obtained goods (such as food, wood, housing) but exclude expenditures on durable goods. Between 1999 and 2001, expenditure per capita in urban areas fell even in nominal terms. In real terms, per capita expenditure fell slightly between 1994 and 2001, as did household expenditure between 1999 and 2001 in both rural and urban areas.6 One noticeable feature of the data is a marked increase in the size of household between 1997 and 1999. This observed increase in household size is believed to be, in part, a result of different accounting procedures rather than an actual increase. The fall in per capita expenditure can in turn be explained partially by the recorded increase in household size, which was not fully offset by the increase in total household expenditure. 6There is evidence that the CPI might be overestimating the price index increase between 1999 and 2001 in Pakistan. Accounting for this overestimation would reduce the extent of decline in expenditures during this period. 26 Pakistan: Household Use of Commercial Energy Table 2.1: Population Statistics, by Survey Year Parameter 1994 1997 1999 2001 Total Population 90,700,000 99,700,000 121,000,000 129,000,000 Urban Population 26,900,000 30,200,000 34,000,000 36,500,000 Percentage Urban 30 30 28 28 Rural Population 63,800,000 69,500,000 86,800,000 92,400,000 Percentage Rural 70 70 72 72 Total Number of Households 14,100,000 16,100,000 17,800,000 18,500,000 Number of Urban Households 4,100,000 4,700,000 5,100,000 5,300,000 Number of Rural Households 10,100,000 11,300,000 12,700,000 13,200,000 Per capita Expenditure 1 672 919 1,054 1,046 Urban per Capita Expenditure 1 860 1,132 1,407 1,365 Rural per Capita Expenditure 1 596 830 912 918 Household Expenditure 2 3,713 5,082 6,274 6,446 Urban Household Expenditure 2 4,751 6,306 7,940 7,988 Rural Household Expenditure 2 3,293 4,570 5,604 5,826 Consumer Price Index 3 62.7 86.6 95.8 103.1 Adjusted per Capita Expenditure 4 1,105 1,094 1,135 1,046 Urban per Capita Expenditure 4 1,415 1,348 1,515 1,365 Rural per Capita Expenditure 4 980 988 982 918 Household Expenditure 4 6,106 6,052 6,754 6,446 Urban Household Expenditure 4 7,814 7,510 8,547 7,988 Rural Household Expenditure 4 5,415 5,443 6,033 5,826 1Nominal per capita expenditures in rupees per month. 2Nominal total household expenditures in rupees per month. 3The CPI is from World Bank )2006), calendar 2000 = 100. 4Monthly expenditures adjusted for the CPI with 2001 as the base year. 2.8 By way of comparison, statistics from other sources are given in Table 2.2. Monthly consumption per capita in this table is computed from gross domestic product (GDP) after subtracting investment, net government spending, and net exports, leaving the residual as consumption by final consumers. Per capita consumption figures differ from per capita expenditures obtained in household expenditure surveys for two reasons. First, the numbers in Table 2.1 do not include expenditures on durable goods. Second, there are measurement errors with both approaches. For example, the numbers in Table 2.2 show an increase in per capita consumption between 1994 and 2001, growing at an average of 5.6 percent annually in real terms. This growth is in part due to a 20 percent increase between 1999 and 2000, which would suggest a measurement error. Chapter 2: Household Survey Analysis 27 Table 2.2: Comparison Statistics from World Development Indicators Monthly per Capita Calendar Urban Population GDP per Capita Consumption1 Year % of Total (US$) Current Rs 2004 Rs 1990 31 371 487 1,385 1991 31 410 522 1,327 1992 31 428 619 1,438 1993 31 442 689 1,454 1994 32 435 775 1,455 1995 32 495 920 1,539 1996 32 505 1,027 1,556 1997 32 486 1,180 1,604 1998 33 473 1,222 1,565 1999 33 467 1,375 1,691 2000 33 531 1,721 2,027 2001 33 505 1,864 2,129 2002 34 493 1,886 2,085 2003 34 555 1,992 2,141 2004 34 632 2,226 2,226 1 Total household consumption divided by total population Source: World Bank (2006). 2.9 The number of people in each decile, split into urban and rural areas, is shown in annex 3. The number of households was fairly constant in rural areas across the 10 deciles, but in urban areas the number increased sixfold from decile 1 to decile 10. In all four surveys, there were more people in rural areas in each decile except the top decile for which the urban population exceeded the rural. 2.10 Monthly expenditures per capita as a function of expenditure decile are shown in Table 2.3. A corresponding table expressed in 2001 rupees is given in Table A3.2 in annex 3. There was a sixfold increase in expenditure per capita from decile 1 to decile 10 in 2001. Because household size decreases sharply with increasing expenditure per capita, the difference in household expenditure is much smaller--about threefold between decile 1 and decile 10. The decline in nominal expenditure per capita between 1999 and 2001 was observed only in the top decile, but this decile's contribution was sufficiently large to bring down the average. In real terms, the highest expenditure per capita across the four survey years was recorded in 1997 for the bottom seven deciles in both urban and rural areas. For the top three deciles, the highest expenditure per capita was in 1999, with the exception of the seventh urban and top rural decile, for which the highest expenditure was in 1997. 28 Pakistan: Household Use of Commercial Energy Table 2.3: Nominal Monthly Expenditure per Capita in Rupees 1994 1997 1999 2001 Decile National Urban Rural National Urban Rural National Urban Rural National Urban Rural 1 252 256 252 365 375 364 373 378 373 402 409 401 2 320 320 320 467 470 467 491 496 489 516 518 515 3 366 366 366 533 535 532 566 567 566 589 587 590 4 410 410 410 596 596 596 641 640 641 659 660 659 5 454 454 454 657 656 657 714 716 713 730 729 730 6 505 505 505 726 724 726 793 794 793 813 813 813 7 568 571 567 813 815 812 897 897 896 917 918 917 8 655 657 654 936 940 935 1,037 1,038 1,037 1,058 1,057 1,059 9 809 815 805 1,134 1,135 1,133 1,291 1,302 1,286 1,294 1,298 1,293 10 1,614 1,701 1,523 2,092 2,151 2,026 2,558 2,892 2,185 2,413 2,735 2,069 Total 672 860 596 919 1,132 830 1,054 1,407 912 1,046 1,365 918 Energy Use Patterns 2.11 Based on experience in other countries (ESMAP 2003a and 2003b), general observations may be made about household energy use in low-income countries with a large rural population and fairly abundant supply of biomass, as is the case in Pakistan. All households would prefer to use electricity for lighting, if electricity is available and affordable. Poor households may encounter financial problems trying to pay the connection fee. Kerosene is used as an alternative source of energy for lighting by households that are not connected to electricity and by other households during power outages, but kerosene is almost universally more expensive per unit of lighting. For cooking and heating purposes, free biomass, if available, tends to be used extensively in rural areas, even among high-income households and nearly universally by low-income households. Middle- and high-income households in urban areas prefer to use gaseous fuels--natural gas if available, and LPG otherwise--because of convenience and cleanliness. 2.12 If biomass has to be purchased but is cheaper than other fuels, the poor use biomass. Kerosene is used to start a fire from biomass (for cooking, for example); it is also used as a cooking and heating fuel. Kerosene is an intermediate fuel in that some households switch from biomass to kerosene before switching again to a gaseous fuel. Depending on relative fuel prices, however, a number of households switch directly from biomass to a gaseous fuel. Kerosene is not as clean or convenient as LPG or natural gas. As a result, if the price difference between a gaseous fuel and kerosene (per unit of usable energy) is not too large, those who can afford it would prefer a gaseous fuel. Cash- constrained urban households may use kerosene regularly as a cooking fuel because it, unlike LPG, may be purchased in small quantities--which, for example, makes it easier Chapter 2: Household Survey Analysis 29 for daily wage earners to lay out small amounts of cash (albeit frequently) to buy fuel--if biomass is not much cheaper. 2.13 As the foregoing suggests, households in developing countries use multiple energy sources for a variety of reasons--including the need to have backup fuels, varying availability of a given energy source, changing relative fuel prices, and fluctuating household income. In the very long run, as income rises, households eventually move up the so-called energy ladder to use only electricity and natural gas, or electricity and LPG if natural gas is not available, or electricity only, for all household energy needs. Near the bottom of the energy ladder are those households that use kerosene for lighting and biomass for cooking and heating. Throughout South Asia, households with no electricity connection usually use kerosene for lighting. Kerosene is effectively the only fuel with a "dual" purpose: it is used for both lighting and cooking or heating. LPG, natural gas, and biomass are used for cooking and heating. Although electricity can be used for cooking, such use of electricity is rare in South Asia. With rising income and expanding availability of modern commercial energy, the percentages of households using electricity, natural gas, and LPG rise; those using kerosene and biomass tend to fall. These generally observed patterns were found in Pakistan, with some exceptions. 2.14 The percentages of households in Pakistan using different energy sources are shown in Table 2.4. The table includes both purchased energy and freely acquired energy--energy given in kind or grown or collected by the household (mostly biomass). Although the four surveys asked about use of coal and charcoal, the numbers of households that reported consumption of these two fuels were so small they are not included in this report. The percentages of households using natural gas, LPG, and electricity rose between 1994 and 2001, while the percentage using kerosene declined. Electricity did not exhibit a steady increase; in fact, the percentage using electricity did not change much for the last three survey years, falling from 1997 to 1999 and then rising in 2001. Biomass use remained steady between 1994 and 2001. While fuelwood use declined some, dung use showed no sign of decline, even among urban households. The percentage of households using agricultural residues increased. 2.15 Because the number of households covered by the survey rises each year, electricity and natural gas connection can continue to expand and still show a drop in percentage coverage. As Table A3.3 and Table A3.4 in annex 3 show, there was an increase in the number of households using various energy sources with the exception of kerosene for which there was a steady fall, and fuelwood between 1999 and 2001. The number of urban LPG users fell by 0.1 million in 2001, but the number of urban natural gas users increased by 0.4 million. This finding would suggest that most new natural gas users were not previous users of LPG. The number of LPG-using households decreased more in urban areas than the corresponding increase in rural areas, resulting in a small net loss of about 40,000 between 1999 and 2001 when the LPG market was increasingly deregulated. There was an implicit price cap imposed by the government in 2001, as today, resulting in a supply shortage. 30 Pakistan: Household Use of Commercial Energy Table 2.4: Percentage of Households Using Different Energy Sources Area and Survey Year Biomass Wood Dung Agr Resid1 Electricity Kerosene Natural Gas LPG National 1994 78 63 29 21 68 64 15 4.1 1997 77 63 27 22 78 51 17.7 5.3 1999 77 63 31 20 73 45 17.4 8.6 2001 77 58 31 26 77 39 20 8.1 Urban 1994 36 32 8.9 3.6 95 33 51 6.4 1997 31 29 7.1 3.3 97 26 57 7.3 1999 31 27 9.1 3.7 94 24 56 10.2 2001 31 25 8.8 5.2 96 14 62 8.1 Rural 1994 96 76 37 28 58 77 0.5 3.1 1997 97 77 35 29 70 62 1.2 4.5 1999 95 77 39 27 65 54 1.8 8.0 2001 95 71 39 34 69 49 3.3 8.1 1 Agricultural residue refers to bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on, used for fuel purposes. 2.16 As expected, the percentages of users and buyers are virtually the same for commercial fuels--electricity, kerosene, natural gas, and LPG--but quite different for biomass, for which free acquisition is common, especially in rural areas. The percentage of households using free biomass increased from 56 percent in 1994 to 61 percent in 2001. This is somewhat surprising, since economic development typically leads to declining availability of free biomass, while rising income enables households to switch to commercial fuels. Increasing uptake of free biomass might suggest declining cash income in real terms. Among the bottom three deciles, there was a steady increase in the percentage of households using free biomass with time. Predictably, use of free biomass was most common among the poorest 10 percent, but the difference between the rich and the poor was much more pronounced in urban areas. In 2001, for example, 37 percent of the bottom decile but only 4 percent of the top decile used free biomass in urban areas, in contrast to 83 percent and 72 percent for the bottom and top, respectively, among rural households. Figure 2.1 shows a breakdown of biomass use for each survey year by expenditure decile; annex 3 gives a breakdown of its use in urban and rural areas, and also examines fuelwood, dung, and agricultural residues individually. Chapter 2: Household Survey Analysis 31 Figure 2.1: Percentage of Households Using Free Biomass 100 el 80 1994 ci de ni 60 1997 ds 40 1999 househol of % 20 2001 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 2.17 In contrast to increasing use of free biomass, the proportion of households purchasing fuelwood declined from 27 percent in 1994 to 21 percent in 2001. The details are given in Figure A3.6 in annex 3. The decline was largest for the bottom decile, whereas there was an increase, if anything in the top decile. Among the urban population, the proportion of households purchasing fuelwood fell in every decile. Among rural households, the proportion fell sharply for the lower deciles--especially the bottom one--but increased for the top two deciles. 2.18 Because households use multiple energy sources, the prevalence of various energy-source combinations has relevance in policy making. The top four energy- choice combinations in each survey year are shown in Table 2.5. In this table, "kero-bio- elec" indicates, for example, that the household used only these three energy sources and no other. Similarly, "bio-kero" would mean that the household did not use any electricity, but only biomass and kerosene. The top five energy-choice combinations are shown by decile in annex 3 for each survey year. 32 Pakistan: Household Use of Commercial Energy Table 2.5: Number of Households in the Top Four Energy-Choice Combinations Top Choice Second Choice Third Choice Fourth Choice National 1994 Kero-bio-elec Bio-kero Bio-elec Gas-elec # of Households 4,100,000 3,900,000 2,400,000 2,100,000 1997 Bio-elec Kero-bio-elec Bio-kero Gas-elec # of Households 4,300,000 4,200,000 3,200,000 2,800,000 1999 Bio-elec Kero-bio-elec Bio-kero Gas-elec # of Households 4,600,000 3,600,000 3,300,000 3,000,000 2001 Bio-elec Gas-elec Bio-kero Kero-bio-elec # of Households 6,000,000 3,600,000 3,400,000 2,900,000 Urban 1994 Gas-elec Kero-bio-elec Bio-elec Kero-elec # of Households 2,000,000 780,000 430,000 280,000 1997 Gas-elec Kero-bio-elec Bio-elec Kero-elec # of Households 2,700,000 710,000 540,000 250,000 1999 Gas-elec Kero-bio-elec Bio-elec LPG-elec # of Households 2,800,000 630,000 550,000 270,000 2001 Gas-elec Bio-elec Kero-bio-elec LPG-elec # of Households 3,200,000 870,000 360,000 190,000 Rural 1994 Bio-kero Kero-bio-elec Bio-elec Biomass # of Households 3,800,000 3,400,000 1,900,000 190,000 1997 Bio-elec Kero-bio-elec Bio-kero LPG-kero-bio-elec # of Households 3,800,000 3,500,000 3,100,000 220,000 1999 Bio-elec Bio-kero Kero-bio-elec Biomass # of Households 4,100,000 3,200,000 2,900,000 910,000 2001 Bio-elec Bio-kero Kero-bio-elec Biomass # of Households 5,100,000 3,200,000 2,600,000 620,000 2.19 Nationally, of the top four combinations, biomass appears in three out of four. Natural gas-electricity, representing the top of the energy ladder, moved from fourth place to second for the first time in 2001. To the extent that biomass-electricity is replacing biomass-kerosene, it seems to represent substitution of electricity for kerosene for lighting purposes, a positive step. But a large increase in the number of households using biomass-electricity and a fall in the number of those using kerosene-biomass- electricity is potentially worrying. If these changes represent a switch from kerosene- biomass-electricity to biomass-electricity because the number of hours of power outage had declined markedly and kerosene was no longer needed for lighting, this would mean progress. But if instead these changes represent households that were previously using Chapter 2: Household Survey Analysis 33 kerosene for cooking or heating and dropping it because of its rising price and reverting to biomass, this would be a socially undesirable consequence of price deregulation against the backdrop of rising international oil prices. More data would be needed to identify the cause of this shift in energy use combination patterns, and this is pursued qualitatively in chapter 3. 2.20 In urban areas, natural gas-electricity has been the leading household energy choice since 1994. Both urban and rural households steadily dropped kerosene from their fuel portfolio. There continued to be a large number of rural households that reported using only biomass and kerosene, although there was a net decline of 580,000 households in this category between 1994 and 2001. There was a net gain of 3.2 million households in the biomass-electricity category, and presumably some households that were in the biomass-kerosene category "graduated" to biomass-electricity. One worrying sign is that the number of rural households that reported using only biomass increased by 460,000 between 1994 and 2001. These households were presumably relying on candles and other means for lighting and minimizing the use of lighting. Surprisingly, biomass- electricity, the top combination among rural households, appeared at a nearly constant proportion in every decile, averaging 39 percent of all rural households in 2001. In contrast, this combination was predictably concentrated among lower deciles in urban areas. As expected, the natural gas-electricity combination dominated the upper decile urban households. 2.21 The historical progression of the uptake of electricity, natural gas, LPG, kerosene, fuelwood, and biomass in Pakistan as a function of expenditure decile is shown in Figure 2.2 and Figure 2.3. Figure 2.2, which illustrates the use of three types of modern commercial energy (natural gas, LPG, and electricity), shows the anticipated pattern of increasing uptake with increasing expenditure per capita. Conversely, Figure 2.3 shows that the use of "traditional fuels"--fuelwood as well as all biomass in general--tended to decline with increasing expenditure per capita, although fuelwood uptake in 2001 was nearly constant in the bottom nine deciles. Use of kerosene, which is an intermediate fuel, also declined with increasing expenditure per capita. Of the six forms of energy plotted in the two figures, kerosene uptake saw the largest change, registering a significant fall. 34 Pakistan: Household Use of Commercial Energy Figure 2.2: Historical Progression of Natural Gas, LPG, and Electricity Uptake 100 90 Natural gas 1994 80 cile de 70 LPG 1994 in 60 Electricity 1994 50 Natural gas 2001 40 households 30 LPG 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure 2.3: Historical Progression of Wood, Biomass, and Kerosene Uptake 100 90 Kerosene 1994 80 cile de 70 Wood 1994 in 60 Biomass 1994 50 Kerosene 2001 40 households 30 Wood 2001 of % 20 Biomass 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 2.22 Figure 2.4 and Figure 2.5 show the uptake of natural gas, electricity, and LPG in urban areas and of LPG, kerosene, and electricity in rural areas, respectively. Natural gas is typically not available in rural areas; in fact, those "rural" households Chapter 2: Household Survey Analysis 35 consuming natural gas in the surveys are effectively residing in peri-urban areas. Figure 2.4 shows that the percentage of urban households in each decile that used electricity remained essentially the same between 1994 and 2001. There was a marked increase in the percentage of urban households using natural gas in virtually every decile, but not much change in the uptake of LPG, which remained limited. In contrast, in rural areas, there was a considerable improvement in electricity connection except for the bottom two deciles and a measurable increase in LPG uptake among upper deciles, as shown in Figure 2.5. Kerosene uptake fell across all deciles. Figure 2.4: Natural Gas, LPG, and Electricity Uptake in Urban Pakistan 100 90 Natural gas 1994 80 cile de 70 LPG 1994 in 60 Electricity 1994 50 Natural gas 2001 40 households 30 LPG 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 2.23 Energy uptake figures say nothing about how much energy is being consumed. Unfortunately, reliable information on amounts of energy consumed is very difficult to obtain in standard household expenditure surveys. Specialized energy surveys with much more detailed questions are typically needed. International experience suggests that one exception is kerosene, for which household respondents appear to be able to recall how much they purchased and what they paid. Neither the HIES nor the PIHS collected information on amounts consumed for natural gas or electricity, but only on monthly expenditures. 36 Pakistan: Household Use of Commercial Energy Figure 2.5: LPG, Kerosene, and Electricity Uptake in Rural Pakistan 100 90 LPG 1994 80 cile de 70 Kerosene 1994 in 60 Electricity 1994 50 LPG 2001 40 households 30 Kerosene 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 2.24 Table 2.6 shows how much LPG, kerosene, and fuelwood were consumed by households in a month in Pakistan as well as the computed prices for kerosene and LPG. In addition to the sharp price increase reported, the sudden drop in the amount of LPG consumed in 2001 might be partly due to the fact that the question on the quantity consumed was changed in the 2001­02 PIHS from "how many cylinders" to "how many kilograms" of LPG were consumed. The computed LPG prices had a relatively large coefficient of variation, on the order of 30 to 60 percent. The computed kerosene prices had a smaller coefficient of variation (10 to 25 percent), except in 1997 when the variation was very large. Computed prices were constant across all deciles except for LPG in 1997 and 1999, when these increased strongly with increasing decile. While LPG prices differed between rural and urban areas, rural households did not pay consistently more than urban. The computed kerosene prices were constant across all expenditure deciles with slightly higher prices in rural than in urban areas for all four surveys. Although the price difference between rural and urban households was small, this trend was consistent in every expenditure decile and every survey year. The computed prices were somewhat higher than the administered prices in effect at the time. One significant deviation is the LPG cylinder price in 2001; this is discussed in 2.26. Large standard deviations and prices that are strongly dependent on expenditure per capita are likely to indicate problems with the data. Chapter 2: Household Survey Analysis 37 Table 2.6: Amount Purchased or Consumed by Households per Month LPG Liters Rs/liter Kg Wood, Area and Cylinder Kerosene Kerosene all Kg Wood Kg Wood Survey Year Buyers Rs/Cylinder Buyers Buyers Households Users Buyers National 1994 1.3 105 4.5 7 76 121 98 1997 1.4 164 3.7 12 94 150 106 1999 1.7 150 3.7 13 87 139 111 2001 0.6 384 2.8 19 84 145 113 Urban 1994 1.2 109 8.7 7 32 100 95 1997 1.5 174 8.0 12 33 113 107 1999 1.9 164 8.0 12 30 111 105 2001 0.8 379 5.5 19 31 120 110 Rural 1994 1.4 103 3.8 7 94 125 99 1997 1.3 196 3.0 12 120 156 105 1999 1.7 142 3.0 13 110 142 114 2001 0.6 385 2.5 19 105 148 114 Notes: LPG cylinder buyers = number of LPG cylinders purchased per month; Rs/cylinder = nominal rupees paid per cylinder; all households = averaged across all households; users = averaged across all users; buyers = averaged across purchasers only. 2.25 In the case of kerosene, it is clear that not only the number of users but the amount consumed by kerosene-using households declined steadily. Fuelwood consumption, in contrast, appeared to increase. When averaged across all households, the quantity of fuelwood consumed did not decline between 1994 and 2001 despite declining percentage of fuelwood-using households. That said, the large increase in the amount of fuelwood consumed between 1994 and 1997 may reflect measurement errors, for example for 1994. If that were the case, the amount of fuelwood consumed actually declined from 1994 to 2001. Predictably, those who had access to free fuelwood consumed more than those who had to pay for wood. 2.26 In 2001, LPG cylinder prices were in the vicinity of Rs 200­250. In February 2001, the maximum LPG cylinder retail price was set at Rs 214 (Pakistan Press International 2001). In July 2001, LPG cylinder prices were about Rs 230­240 (Asia Pulse 2001). The computed price of Rs 384 is markedly higher. However, 75 percent of the 1,819 households that reported LPG consumption gave responses that corresponded to exactly Rs 30 per kg of LPG, or Rs 354 for 11.8 kg cylinder. There is no obvious explanation for this discrepancy. One-half of these households spent Rs 170 or less a month on LPG and consumed 5 kg or less. It is worth noting that LPG cylinder prices had 38 Pakistan: Household Use of Commercial Energy risen to a winter season peak level of Rs 525 by the beginning of November 2005 (Dawn 2005),7 and even higher in mid-January 2006 (Business Recorder 2006). 2.27 The next two tables focus on cash expenditures, excluding energy sources given in kind or grown or collected by the household. Such an analysis may shed light on household cash expenditure patterns and constraints. Table 2.7 shows nominal, unadjusted monthly expenditures on electricity, natural gas, kerosene, LPG, fuelwood, and biomass by purchasers. Only those forms of energy obtained for cash are considered, and the results are averaged across purchasers only. The CPI increased 64 percent over this period. Expenditures on kerosene, LPG, and fuelwood increased at about the same rate or slightly less. Table 2.6 indicates that the price of kerosene rose faster than the CPI, but consumers reduced their consumption of kerosene, thereby mitigating the sharp increase in the kerosene price in financial terms. It is difficult to draw conclusions on LPG because of data problems, but expenditures on LPG increased at the slowest rate among the fuels cited. This would be consistent with a reduction in the amount of LPG consumed per household. As for fuelwood, consumption per household increased during this period while expenditures increased at a rate slightly less than that of the CPI, meaning that the effective price of wood fell. 2.28 The sharp rise in the amounts paid for electricity, followed by those for natural gas, is striking. Expenditures on natural gas rose at the same rate as the gas tariff, from which it follows that households were not consuming any more in 2001 than in 1994. Expenditures on electricity tripled between 1994 and 2001, more than the tariff increase. It appears that electricity consumption in kilowatt-hours per household increased between 1994 and 2001. 2.29 Higher expenditures are not a problem if income is rising even faster. Therefore, in addition to examining expenditure levels, it is informative to look at the percentage share of total household expenditure spent on various types of energy. Table 2.8 shows cash expenditures on various energy sources as a percentage of total household expenditure, averaged across purchasers only. This table thus reflects the combined impact of changing energy prices, amounts consumed, and changing total household expenditure. Recall that household expenditures increased at a slightly higher rate than the CPI. Expenditures on kerosene, LPG, and biomass increased at a rate comparable to, or slightly lower than, the CPI; hence, they maintained about the same percentage share across purchasers. The share of expenditures on electricity and natural gas increased over time because their expenditures rose much faster than the CPI. 7This coincided with the end of Ramadan, when more cooking fuels are used. Chapter 2: Household Survey Analysis 39 Table 2.7: Monthly Expenditure on Purchased Energy Nominal Rupees Averaged across Purchasers Area and Survey Year Electricity Natural Gas Kerosene LPG Wood Biomass National 1994 105 115 32 146 108 112 1997 163 153 40 218 146 148 1999 255 202 47 235 167 174 2001 318 237 53 230 174 182 Urban 1994 149 115 59 149 109 113 1997 219 155 82 251 146 152 1999 342 202 95 278 167 173 2001 430 238 103 282 171 179 Rural 1994 75 102 27 143 108 112 1997 130 103 32 196 145 147 1999 205 202 39 213 167 174 2001 255 229 47 209 175 182 40 Pakistan: Household Use of Commercial Energy Table 2.8: Purchased Energy in Pakistan In Percentage of Total Household Spending, Averaged across Purchasers Area and Survey Year Electricity Natural Gas Kerosene LPG Biomass Total Energy National 1994 2.5 2.1 1.1 3.3 3.8 4.0 1997 3.1 2.2 1.0 3.7 3.6 4.5 1999 3.8 2.5 1.0 3.0 3.4 5.0 2001 4.7 3.0 1.0 2.9 3.4 5.9 Urban 1994 2.9 2.1 1.6 3.4 3.5 5.6 1997 3.4 2.2 1.8 4.0 3.5 6.2 1999 4.1 2.4 1.8 3.3 3.4 6.8 2001 5.2 2.9 1.8 3.5 3.4 8.0 Rural 1994 2.3 2.2 1.0 3.3 3.9 3.4 1997 2.9 2.0 0.9 3.6 3.6 3.7 1999 3.7 2.9 0.8 2.8 3.4 4.3 2001 4.5 3.7 0.9 2.6 3.4 5.0 2.30 The last column in Table 2.8 reflects--in addition to changing prices, consumption, and total household expenditure--the percentage of households using different forms of purchased energy. The share of expenditure on all forms of purchased energy rose, with the increase coming from electricity and, to a lesser extent, natural gas. Although rural natural gas-consuming households had to increase the share of expenditures devoted to natural gas by close to 70 percent between 1994 and 2001, natural gas is used by only a small percentage of those households classified as residing in rural areas, and hence its impact on overall energy expenditures is small. In contrast, electricity is nearly universally consumed in urban areas, and its coverage in rural areas is rapidly expanding. That the rural cash expenditures on energy are dominated by electricity can be seen by comparing the percentage spent on total energy (5.0 percent) with that on electricity (4.5 percent). 2.31 From a policy perspective, it is important to examine energy expenditures averaged over all households, regardless of whether they consume a specific form of energy or not. This is because the impact of rising prices is not as serious if a given form of energy is consumed by a small fraction of the population, compared to one that is universally consumed. For an indication of overall effects of price changes, the data in Table 2.7 can be averaged across all households rather than only those that purchase energy; Table 2.9 shows these findings. Three factors can contribute to an increase when Chapter 2: Household Survey Analysis 41 expenditures are averaged across all households: (1) an increase in the percentage of households consuming the given form of energy, (2) an increase in the price of energy, and (3) an increase in the amount consumed. Several features of Table 2.9 are worth highlighting. Electricity dominates expenditures on energy, reflecting both relatively high expenditures and large uptake. Natural gas is the second largest expenditure in urban areas and, predictably, the lowest in rural areas. The largest increases between 1994 and 2001 are observed with electricity and natural gas, and the relative increase across years is larger here than in Table 2.7, reflecting growing connection rates. Table 2.9: Nominal Monthly Household Expenditures on Purchased Energy In Rupees, Averaged across all Households Area and Survey Year Electricity Natural Gas Kerosene LPG OGE Non-OGE % OGE National 1994 71 17 20 6 114 34 77 1997 125 27 20 12 183 37 83 1999 184 34 21 20 259 46 85 2001 239 47 20 18 325 45 88 Urban 1994 139 59 20 9 227 35 87 1997 208 88 21 18 335 39 90 1999 314 111 22 28 475 41 92 2001 404 145 14 22 585 40 94 Rural 1994 43 0.5 20 4 69 33 67 1997 90 1 20 9 120 37 77 1999 131 4 21 17 172 48 78 2001 173 8 23 17 220 47 82 Note: OGE = oil products, gas, and electricity; non-OEG = biomass, coal, and charcoal. 2.32 Table 2.10 shows the same data as Table 2.8 but averaged across all households. There is a marked increase in the percentage share of electricity in both urban and rural areas, and of natural gas in urban areas, reflecting both increasing tariffs and increasing uptake. These two sources of energy--particularly electricity--contribute to the overall increase in the percentage of total household expenditure spent on energy. The share of total energy in the table is comparable to data for India, where electricity, kerosene, and LPG prices continue to be subsidized. The 1999­2000 National Sample Survey in India shows that urban households spent on average 7.5 percent of total household expenditure on purchased energy, and rural households 4.1 percent; across all households, this averages out to 5.0 percent (ESMAP 2003a). 42 Pakistan: Household Use of Commercial Energy Table 2.10: Purchased Energy as Share of Household Expenditures In Percentage of Total Spending, Averaged across all Households Area and Survey Year Electricity Natural Gas Kerosene LPG Biomass Total Energy National 1994 1.7 0.3 0.7 0.1 1.1 4.0 1997 2.4 0.4 0.5 0.2 0.9 4.4 1999 2.8 0.4 0.4 0.3 0.9 4.8 2001 3.6 0.6 0.4 0.2 0.8 5.6 Urban 1994 2.7 1.0 0.5 0.2 1.0 5.6 1997 3.2 1.3 0.5 0.3 0.9 6.1 1999 3.7 1.3 0.4 0.3 0.8 6.6 2001 4.9 1.8 0.2 0.3 0.7 7.9 Rural 1994 1.3 0.0 0.7 0.1 1.1 3.3 1997 2.0 0.0 0.6 0.2 0.9 3.7 1999 2.4 0.1 0.4 0.2 0.9 4.0 2001 3.0 0.1 0.5 0.2 0.8 4.7 2.33 The foregoing results describe average effects on consuming as well as all households, but do not tell how different income groups have been affected. To probe this question, the following four figures show the share of different energy sources out of total household spending as a function of per capita expenditure decile, including natural gas in urban areas and electricity on account of their high contributions to rising household expenditures on energy. Figure 2.6 plots cash as well as total (inclusive of imputed and cash values) expenditures on energy as a percentage share of total household expenditure in each decile. The percentage share of expenditure on household energy, which is to a large extent an essential good, decreases with increasing household income when the total value of the energy consumed is considered. However, when only cash payments are considered, the expenditure on energy increases with increasing decile because the poor make greater use of cash-free biomass. This pattern is typical of developing countries where a large segment of the population has access to free traditional fuels. As long as the opportunity costs of obtaining cash-free fuels are very low because there are few or no income-generating opportunities for those currently spending time collecting or growing free biomass, it is difficult for commercial fuels to compete with traditional. The difference between total and cash expenditures is largest for the bottom decile for this reason. In terms of cash expenditure, the percentage share was essentially constant across deciles in 1994, but has been rising with increasing decile in recent years. Chapter 2: Household Survey Analysis 43 Figure 2.6: Energy as Share of Household Expenditures in Pakistan 10 9 Cash 1994 8 Cash 1997 Cash 1999 7 expenditure d Cash 2001 6 Total 1994 5 Total 1997 househol of 4 Total 1999 % Total 2001 3 2 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 2.34 The next three figures examine natural gas and electricity. Figure 2.7 and Figure 2.8 show the percentage share of natural gas and electricity, respectively, in urban areas averaged across all households. In the case of natural gas, there was little change over the years examined for the top decile but a large increase in the lower deciles, with the greatest increase observed for decile 5. As for electricity, the percentage share was nearly constant across the deciles and rose steadily with time. Figure 2.9 illustrates electricity in rural areas. The percentage share showed a rising trend with increasing decile. 44 Pakistan: Household Use of Commercial Energy Figure 2.7: Expenditure on Natural Gas in Urban Pakistan In Percentage of Total Household Spending, Averaged across all Households 3.0 2.5 1994 2.0 expenditure 1997 1.5 1999 household 1.0 of % 2001 0.5 0.0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure 2.8: Expenditure on Electricity in Urban Pakistan In Percentage of Total Household Spending, Averaged across all Households 6 5 1994 diture 4 expen 1997 3 1999 household 2 of % 2001 1 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Chapter 2: Household Survey Analysis 45 Figure 2.9: Expenditure on Electricity in Rural Pakistan In Percentage of Total Household Spending, Averaged across all Households 4.0 3.5 1994 diture 3.0 2.5 expen 1997 2.0 1999 1.5 household of 1.0 % 2001 0.5 0.0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Provincial Differences 2.35 The survey data were also analyzed by province. This analysis incurs statistical problems because of the smaller sample size. For example, for the 2001­02 PIHS, the sample size was 6,304 for Punjab, 3,702 for Sindh, 2,665 for the Northwest Frontier Province (NWFP), 2,023 for Balochistan, 634 for Azad Jammu and Kashmir, and 457 for the Northern Areas. Some results, such as the 1999 survey findings in Balochistan, looked decidedly odd (see annex 4 for details). This section briefly summarizes the differences between various regions and national averages; sample size limitations should be borne mind in interpreting this information. The details are given in annex 4. 2.36 Punjab, the largest province in the country, dominates the national trends described in the foregoing sections. It was slightly richer than the rest of the country on a per capita basis, but poorer on the basis of household expenditures in 1999 and 2001. In 2001, its rural population was richer and urban population poorer than the national average on a per capita basis. 2.37 Household uptake of fuelwood was markedly lower in Punjab than the national average, but the uptake of dung and agricultural residues was higher. The uptake of kerosene and LPG was also lower, but amounts consumed by purchasers were about the same. LPG users in Punjab paid higher prices than the national average in 1997 and 1999, both in urban and rural areas. If this is true (and not an artifact of data problems), this situation is quite different from the current LPG market. In the 1990s, a sizable 46 Pakistan: Household Use of Commercial Energy fraction of the LPG consumed in Punjab was supplied by coastal refineries. After the Parco refinery--located mid-country--came on stream in September 2000, the need for trucking LPG upcountry from Karachi was reduced considerably. The LPG supply and distribution chain in Punjab is more developed, and retail prices of LPG are today in keeping with retail prices in other major consumption centers. Expenditures on electricity, natural gas, and LPG by purchasers were higher, as were the corresponding percentage shares of total household income. Fuelwood consumption, reported in kilograms, was much lower than the national average, suggesting greater reliance on other fuels. The top four energy-choice combinations were essentially the same as the national ranking. 2.38 Sindh, the second largest province, is considerably more urban than the rest of the country, with 39 percent of its total population being urban compared to a national average of 28 percent in 2001. Sindh is the richest province when expenditures are averaged across the entire provincial population, but the rural population was significantly poorer than the national average by 2001. On the basis of household expenditures, the rural population was consistently poor and the urban richer. 2.39 The natural gas connection rate in Sindh was the highest in the country, and 80 percent higher than the national average in 2001. Correspondingly, the uptake of kerosene and LPG was much lower in Sindh than the national average among urban households. In fact, the LPG uptake was one-eighth the national average in 2001. The electricity connection rate, however, was lower in rural areas than the national average; conversely, kerosene uptake was higher. The uptake of biomass by households was lower than the national average, including less for dung and markedly less for agricultural residues in both urban and rural areas. Fuelwood uptake was lower among urban households but much higher among rural. 2.40 The top energy-choice combination was natural gas-electric for the province in all four surveys, reflecting a larger percentage of the urban population as well as higher natural gas uptake than in the rest of the country. In rural areas, however, the top combination was biomass-kerosene. An analysis of purchasers showed that expenditures on electricity and natural gas were lower than the national average, those on kerosene were about the same or slightly higher, and those on fuelwood were lower except in 2001. The kilograms of fuelwood consumed rose sharply between 1999 and 2001, both among users and averaged across all households. In 2001, there was a large difference in the price of LPG between urban (Rs 354 per cylinder) and rural (Rs 412 per cylinder) purchasers. 2.41 The NWFP is more rural than the rest of the country, with 15 percent of its population living in rural areas against the national average of 28 percent in 2001. Expenditures per capita were lower than the national averages in both urban and rural areas in four surveys. On the basis of household expenditures, rural households were slightly better off than the national average, but urban households were poorer in three out of four surveys. Despite a smaller percentage of households living in rural areas, the electricity connection rate in 2001 was no lower than the national average and, in fact, was as high as that in Sindh. The statistical limitations of provincial analysis should be borne in mind in interpreting this (somewhat unexpected) finding. The uptake of biomass, including fuelwood, was higher in the NWFP than the national average; uptake of Chapter 2: Household Survey Analysis 47 kerosene and LPG was much higher; and uptake of natural gas was much lower. The uptake of agricultural residues was lower. The uptake of biomass, fuelwood, dung, and LPG by urban households was higher than the national average, kerosene much higher, and natural gas much lower. The uptake of fuelwood, dung, and electricity by rural households was higher, kerosene and LPG much higher, and agricultural residues lower. That the uptake of LPG was considerably higher in rural areas compared to the rest of the country is surprising given lower rural expenditures per capita, and may reflect a sampling bias, as speculated at the end of this section. 2.42 The top energy-choice combination in Sindh was kerosene-biomass- electricity. Natural gas-electricity was not among the top four combinations in 2001, reflecting a rural bias. Purchasers paid less for LPG (in 1997 and 1999) and bought smaller quantities of kerosene. Fuelwood consumers (purchasers as well as those using free fuelwood) consumed more wood than the national average in each survey year. Expenditures on electricity were considerably lower, indicating much smaller consumption; expenditures on natural gas were higher. When expressed as a percentage share of total household expenditure averaged across all households, expenditures on electricity were not much lower than the national average due to higher connection rates. Expenditures on kerosene and natural gas were lower, but those on LPG, kerosene, and biomass were higher, resulting in overall percentages on energy being the same as or slightly higher than the national average. 2.43 Balochistan is also more rural than the rest of the country, with only 17 percent of its population living in urban areas in 2001. The province was poorer than the national average except in 1999, in which there appeared to have been serious data problems: household expenditures jumped from Rs 3,887 in 1997 to Rs 6,580 in 1999. The electricity connection rate in rural areas was much lower than the national average. The uptake of kerosene and LPG was higher and of natural gas was lower; LPG increased dramatically from 3 percent to 20 percent from 1997 to 1999, falling to 12 percent in 2001, again suggesting data problems in 1999. The uptake of biomass, including fuelwood, was much higher, and of dung and agricultural residues much lower. The top energy-choice combination was biomass-kerosene for all four surveys for the province as a whole, and gas-electricity in urban areas. The computed LPG prices seemed inconsistent, suggesting data problems with expenditures or consumption or both. Consumption of fuelwood in kilograms was greater than the national average, among purchasers as well as averaged across all households. The percentage share of total household expenditure on purchased energy, averaged across all households, was much lower for electricity and natural gas, higher for kerosene and biomass, and lower for total purchased energy, than the national average. The expenditures on energy among users were much lower on electricity, lower on LPG, and higher on natural gas and fuelwood, than the national average. 2.44 Only 10 percent of the population of Azad Jammu and Kashmir lived in urban areas in 2001. Averaged across the entire region, expenditure levels were about the same as the national average. The rural population, however, was richer. Household uptake of biomass was greater (but lower for dung and agricultural residues), as was the 48 Pakistan: Household Use of Commercial Energy uptake of kerosene and LPG. The electricity connection rate was much higher in rural areas than the national average. There was essentially no natural gas available. 2.45 The residents in the Northern Areas were poorer than the national average. Household uptake of biomass, kerosene, and LPG was higher, but that of agricultural residues lower, and there was essentially no use of dung or natural gas. Lastly, in the FATA, which was all rural, the uptake of biomass was much higher than the national average, of LPG greater, and of electricity much lower. The uptake of kerosene was virtually universal. 2.46 One possible explanation for the surprisingly high percentages of households using electricity (rural NWFP, rural Azad Jammu and Kashmir) and LPG (rural NWFP, rural Azad Jammu and Kashmir, rural Northern Areas, and the FATA) could be that the households sampled were not representative. This would arise, for example, if only areas with reasonably good road infrastructure were accessed for the surveys. Comparison with Data from Utility Companies 2.47 The findings from the 2001­02 PIHS were compared with information on the payments collected for natural gas and electricity consumption by the utility companies and the numbers of customers connected. The utility companies provided data for calendar 2001. 2.48 The total number of households connected to natural gas was 3.3 million according to the data from the gas companies, and 3.7 million according to the household survey. Monthly household expenditure on gas was Rs 237 according to the 2001­02 PIHS, and Rs 284 according to gas company data. Table 2.11 compares the percentage of natural gas consumers who paid up to Rs 100 per month, between Rs 100 and Rs 150 per month, and so on, according to the 2001­02 PIHS and the amounts collected by the two gas companies. Consistent with higher average monthly bill collection, the gas company data are more skewed toward higher expenditures. This may be due in part to the practice of officially connected households to supply natural gas to their neighbors, as discussed in chapter 3; this would result in higher apparent monthly expenditures (which actually cover consumption by several households) by those who are officially connected and paying bills to gas companies. Table 2.11: Natural Gas Payment Distribution for Calendar 2001 Monthly Expenditure in Rupees versus Percentage of Households Data Source Rs 0­100 100­150 150­200 200­250 250­300 300­400 400+ 2001­02 PIHS 12 33 19 11 9 8 8 Gas Company Data 18 19 15 10 10 13 15 2.49 For electricity, data from the distribution companies were available for Punjab, Balochistan, and the NWFP, but not for Sindh. The numbers of households that paid for electricity and the average monthly expenditures or payments made are compared in Table 2.12. The number of households paying for electricity from the Chapter 2: Household Survey Analysis 49 household data is consistently higher, and conversely the monthly amount paid is consistently lower. The higher number of electricity-consuming households can be explained in part by secondary connections, amounting to some 18 percent in these provinces according to the differences in the numbers from the two data sources. When the average monthly expenditure is adjusted for secondary connections--by dividing the total revenue collected by the electricity distribution companies by the number of customers from the household survey data--the monthly payment remains higher by about 10 percent in Punjab and the NWFP than the average reported in the PIHS. It is lower by 15 percent in Balochistan. These differences are probably within measurement errors. Table 2.12: Electricity Connections and Monthly Payments for Calendar 2001 Province and Data Source Number of Households Connected Average Rs per Month per Household Punjab Utility Data 7 million 449 Punjab PIHS Data 8.3 million 334 Balochistan Utility Data 230,000 253 Balochistan PIHS Data 360,000 190 NWFP Utility Data 1.35 million 383 NWFP PIHS Data 1.75 million 269 2.50 A comparison of the distribution of monthly expenditures on electricity was made in Punjab and the NWFP using data from the gas companies and the 2001­02 PIHS. The results, given in Table 2.13, show that the household data are much more skewed toward lower expenditures than the electricity distribution company data. This finding is consistent with the lower average monthly expenditures reported in the PIHS. As mentioned earlier, this discrepancy may be explained in part by the practice of neighbors supplying electricity to others. Table 2.13: Electricity Payment Distribution for Calendar 2001 Monthly Expenditure in Rupees versus Percentage of Households Province and Data Source Rs 0­85 85­190 190­330 330­660 660­1,300 1,300+ Punjab Utility Data 20.0 19.0 20.1 24.1 11.4 5.4 Punjab PIHS Data 26.5 40.7 21.9 8.7 1.8 0.5 NWFP Utility Data 24.3 21.2 22.5 20.4 7.8 3.8 NWFP PIHS Data 42.6 33.2 16.9 5.9 1.2 0.1 2.51 The PIHS data were analyzed to determine payment distribution by expenditure decile in calendar 2001. The results for all households using natural gas and electricity are shown in Table 2.14 and Table 2.15, respectively. Taking natural gas as an example, for each decile, the households that pay for natural gas were split into those that paid up to Rs 100 per month, between Rs 100 and Rs 150 per month, and so on. Shown in 50 Pakistan: Household Use of Commercial Energy the last column is the percentage of households in each decile that reported paying for natural gas. Table 2.14: Monthly Natural Gas Expenditure Distribution Decile 0­1001 100­1501 150­2001 200­2501 250­3001 300­4001 400+1 All HH2 1 20 31 20 13 4 6 6 6.6 2 12 40 15 11 13 5 4 9.0 3 15 25 24 14 9 6 7 9.1 4 17 34 20 11 6 8 4 11.5 5 12 36 17 13 10 7 5 16.3 6 10 32 18 12 12 7 8 15.6 7 14 30 22 9 6 10 10 19.3 8 14 35 15 11 9 9 7 23.2 9 13 34 22 10 8 8 6 25.8 10 12 38 19 9 8 6 8 41.5 Total3 12 33 19 11 9 8 8 19.8 1 Percentage of households that paid for natural gas that spent the amount shown in rupees per month. Each row between "0­60" and "500+" adds up to 100 percent. 2. Percentage of households in each decile that paid for electricity. 3National average for electricity users. Source: 2001­02 PIHS. Table 2.15: Monthly Electricity Expenditure Distribution Decile 0­601 60­1001 100­1501 150­2001 200­3001 300­4001 400­5001 500+1 All HH2 1 22 25 21 15 11 4 1 1 57.3 2 26 24 19 13 13 3 2 1 65.6 3 23 24 22 13 11 4 2 2 68.0 4 19 28 22 14 10 3 2 2 72.9 5 22 25 18 12 13 5 2 2 72.7 6 20 26 20 13 12 4 3 2 73.1 7 18 23 24 15 12 3 2 2 78.4 8 22 23 21 13 12 5 2 3 79.0 9 23 24 18 13 12 5 3 4 82.1 10 17 23 20 14 11 5 3 6 88.1 Total3 21 24 20 13 12 4 3 4 75.3 1Percentage of households that paid for electricity that spent the amount shown in rupees per month. Each row between "0­60" and "500+" adds up to 100 percent. 2Percentage of households in each decile that paid for electricity. 3National average for electricity users. Source: 2001­02 PIHS. Chapter 2: Household Survey Analysis 51 2.52 Table 2.14 shows that 20 percent of those in decile 1 that paid for natural gas paid less than Rs 100 per month. Nearly two-thirds of natural gas users spent less than Rs 200 per month. According to the tariff schedule in effect in calendar 2001, monthly consumption of 50 m³ cost about Rs 150. Because the rate of natural gas connection is low among the lower deciles, the results do not have much statistical significance and contain large uncertainties. Bearing this limitation in mind, it is curious that there are no large differences in consumption patterns across deciles. One possible explanation is that lower income households are more likely to have secondary connections from their neighbors, paying more per unit of natural gas consumed. 2.53 Electricity has much higher connection rates than natural gas, and hence the results have greater statistical significance. According to the information provided by the electricity distribution companies, Rs 200, Rs 300, and Rs 400 per month in calendar 2001 corresponded approximately to monthly consumption of about 90­100 kWh, 120­ 140 kWh, and 160­180 kWh, respectively. Expenditures did not vary markedly among deciles up to Rs 400 per month. In particular, there is surprisingly little variation in the bottom seven deciles. The last category--those spending more than Rs 500 per month-- showed a steady increase in percentage share of households with increasing decile, increasing sixfold from the bottom to the top decile, albeit starting from a very low base. Overall, even the top decile did not show a markedly skewed bias toward higher consumption. Although the prevalence of secondary connections among low deciles offers one possible explanation for limited variation across deciles, this finding calls for further investigation. 3 Focus Group Discussions and Interviews 3.1 Household surveys show that an additional 4.7 million and 1.6 million households, respectively, took up electricity and natural gas between 1994 and 2001. The number of households using kerosene fell during the same period by 1.9 million, the number of households using LPG increased by about 0.9 million, and the number of households using biomass increased by 3.1 million. 3.2 By their nature, household expenditure surveys do not provide information on the quality of energy service (reliability of electricity supply, power fluctuations, reliability of kerosene or LPG delivery, transaction costs of purchasing a particular fuel), nor reasons for household fuel choice. Discussions with household energy users are needed to answer these questions. From September 2004 to June 2005, 89 focus group discussions and 67 individual interviews were conducted in order to supplement the data provided by household surveys and utility companies, and to assess the impact of recent changes in the oil, gas, and electricity sectors. Individual interviews enabled the study team to hear views that might not be openly shared in group settings--for example, on potentially sensitive topics--and to pursue interesting leads to obtain more detailed information. While focus group members were entirely energy consumers, the individuals interviewed also included fuel suppliers and local leaders. Site, Group, and Individual Selection 3.3 Focus group discussions were conducted in Punjab (September 2004­ March 2005), Sindh (April­June 2005), and Balochistan (March­April 2005), and individual interviews in Punjab (October 2004­March 2005) and Balochistan (March­ April 2005). The exact locations and characteristics of the groups and individuals are given in annex 5. The 89 focus groups consisted of 16 all-male and 16 all-female groups in Sindh, 20 all-male and 21 all-female groups in Punjab, and 8 all-male and 8 all-female groups in Balochistan. The 67 individuals interviewed--46 men and 21 women-- consisted of 31 consumers (13 men and 18 women), 13 suppliers (5 LPG suppliers, 7 fuelwood suppliers, and 1 dung supplier, all male), and 23 local leaders (20 men and 3 women). Based on the observations of the interviewers and the known socioeconomic characteristics of the neighborhoods in which the participants lived, the groups were broadly categorized into three income groups: 53 54 Pakistan: Household Use of Commercial Energy · Lower low income, with an estimated average monthly income of Rs 7,000 for a family of approximately 6­8 persons · Upper low income, with an estimated average monthly income of Rs 10,000 for a 6­8 member family · Middle income, with an estimated average monthly income of Rs 15,000 for a 6­8 member family. The geographical distribution of the focus groups and their estimated income status are given in Table 3.1. In terms of socioeconomic classification, 38 focus groups and 26 individuals were estimated to be from lower low-income, 31 focus groups and 27 individuals from upper low-income, and 20 focus groups and 14 individuals from middle- income households. All 20 of the middle-income focus groups were from urban areas and had access to electricity; all but one had access to natural gas. Among the individuals interviewed, none of the consumers, two suppliers, and more than half of the local leaders were from middle-income households. Table 3.1: Geographical Distribution of Focus Groups and Individuals Sindh Punjab Balochistan Income Level Urban Rural Total Urban Rural Total Urban Rural Total Focus Groups Lower Low 2 12 14 0 17 17 1 6 7 Upper Low 10 4 14 8 3 11 4 2 6 Middle 4 0 4 13 0 13 3 0 3 Total 16 16 32 21 20 41 8 8 16 Individual Interviews Lower Low -- -- -- 5 12 17 3 6 9 Upper Low -- -- -- 10 6 16 8 3 11 Middle -- -- -- 8 2 10 4 0 4 Total -- -- -- 23 20 43 15 9 24 Note: -- = Not Applicable. 3.4 Responses given to various questions were categorized into four categories: (1) yes, (2) to some extent, (3) no, and (4) not applicable. This chapter breaks down responses into the first three categories and omits those that were not applicable. In interpreting the results, it is important to bear the limitations of these discussions and interviews in mind. The small sample size seriously limited the utility of analysis by gender, income status, or province; subdivision into such groups all too often yielded only a few samples in each category. The results that follow should be taken to be qualitative, and should not be taken to be statistically significant. Chapter 3: Focus Group Discussions and Interviews 55 Findings from Focus Group Discussions 3.5 Of the 89 focus groups, 86 had electricity. The responses to the questions on whether electricity tariffs and electricity connection fees are affordable are shown in Figure 3.1 as a function of the groups' socioeconomic status. As expected, affordability was associated with respondents' income levels. The majority considered both electricity tariffs and connection fees to be affordable or affordable to some extent, although some low-income groups indicated that they found it difficult to pay for either. Figure 3.1: Affordability of Electricity 30 25 oups gr 20 Lower low of 15 Upper low 10 Middle Number5 0 ble ath ble ble ath da we da da not ection ection we t ection m no ffor ffor m Electricity a Electricity so a Electricity ffora Connaffordable Conn so affordable Conn affordable 3.6 The participants were also asked the following questions with respect to electricity supply: · Is it easy to get a connection to electricity? A "no" answer would mean that the sign-up procedure is lengthy and bureaucratic. · Does it help to give an informal "reward" to power company staff to get an electricity connection in a timely manner? · Have politicians helped bring electricity to your neighborhood; or alternatively, if you already have an electricity grid, have politicians helped improve the quality of electricity supply (fewer outages, less frequent load shedding)? · Are power outages frequent? · Is load shedding (scheduled outages that are announced in advance) frequent? · Have you experienced overbilling for electricity? The responses to the above six questions are summarized in Figure 3.2. 56 Pakistan: Household Use of Commercial Energy Figure 3.2: Electricity Supply Service 70 60 Yes oups 50 gr 40 of To some 30 extent 20 No Number 10 0 " s s nt nt ard pl ge ection que asye formal w he In cianitli pl que he edding outa "re Fre Fre sh Po Conn Overbilling 3.7 The connection procedure was reported by most to be neither lengthy nor bureaucratic. However, none of the groups in Upper Sindh replied that getting new electricity connections was easy. Giving an informal "reward" to service providers was said by some to speed up getting a new connection. Perhaps consistent with their response to the question on ease of obtaining a new electricity connection, none of the groups in Upper Sindh answered "no" to the question on whether giving an informal reward to service providers could facilitate getting new connections. Bringing in a new power line or natural gas pipeline is sometimes promised during election campaigns. Less than one-half of the focus groups said that politicians have helped bring electricity to the neighborhood or have improved the quality of the power supply. 3.8 Nearly half of the focus groups reported that power outages were frequent. Many believed that they had been overbilled at times. Some participants showed high bills, apparently sent out by mistake or generated without proper meter reading. The groups in Upper Sindh in particular appeared to suffer from frequent power outages and load shedding as well as overbilling. 3.9 The participants were also asked the following questions with respect to illegal connections: · Are illegal electricity connections relatively common (for example, at a frequency of about 15­20 percent)? · Are illegal connections on the rise? · Do the poor who are illegally connected to neighbors' electricity supply pay more for electricity than those who are legally connected? · Do you believe that those who are powerful manage to bypass the system and not pay for electricity, and because the costs are passed onto consumers who pay, the poor end up bearing the burden disproportionately? Chapter 3: Focus Group Discussions and Interviews 57 3.10 The results are summarized in Figure 3.3. About three-quarters of the groups said that illegal connections were common or somewhat common. About half believed that illegal connections were on the rise. The participants expressed strong negative reactions to illegal supply of electricity and to tampering with meters to reduce the electricity bill. Three-quarters replied that the poor who are illegally connected to electricity pay higher tariffs (to their neighbors, for example) than those who are legally connected. There appeared to be a fairly widespread perception that the rich and the powerful were able to make use of free electricity using their political influence, and that the poor ended up bearing the burden as a result of free-riders' costs being passed through to all paying electricity consumers. This perception was stronger among low- income households than middle-income groups. Figure 3.3: Illegal Connections to Electricity 70 60 oups Yes 50 gr 40 of To some 30 extent 20 No Number10 0 pay e n bear illegal de legalIl ections mmon g ections mor Poor bur co Poor conn Risin conn 3.11 As expected, the respondents did not prefer or use electricity for space heating or heating water for the most part. Equally predictably, nearly all preferred and used electricity for air conditioning. 3.12 Forty-eight focus groups lived in neighborhoods with natural gas, nine of which were in rural areas. Natural gas was considered affordable by nearly all users. Some groups reported that they did not have access to natural gas but that the houses across the street did; these groups in particular expressed a strong desire to be connected to natural gas because they could observe the benefits of natural gas connection. Responses to questions on the affordability of natural gas tariffs and gas connection charges are shown in Figure 3.4. 3.13 The poor who cannot afford the connection fee may resort to illegally tapping into neighbors' connections with their consent and pay these officially connected neighbors. One-half of the respondents said that illegal natural gas connections were common (4 percent) or common to some extent (46 percent). In some cases, people reported formation of a co-op, whereby one person obtained a gas connection from the gas supplier and extended the supply to several neighboring households. The majority did not think that the illegal supply of natural gas was on the rise. 58 Pakistan: Household Use of Commercial Energy Figure 3.4: Affordability of Natural Gas 20 18 16 oupsrg 14 Lower low 12 of 10 Upper low 8 Middle 6 4 Number2 0 gas ble ath ble ble ble ath ble ble t ral da we da da Not ection da ection we da ection da m no m Natu ffora ffor So a ffora Conn ffora ffor Conn so a Conn ffora 3.14 The questions asked on the ease of obtaining a new connection, quality of supply, and overbilling for electricity were also asked about natural gas. The results are shown in Figure 3.5. Virtually no group said that obtaining gas connections was difficult in terms of procedure and process. Again, Upper Sindh was the only region where none of the groups said that getting a new gas connection was easy. But a greater percentage (79 percent) said that giving informal "rewards" to natural gas company staff facilitated, at least to some extent, obtaining a new connection, compared to 59 percent in the case of electricity. In particular, none of the groups in Lower Sindh and Balochistan answered "no" to this question. Similarly, a greater percentage (63 percent) said that politicians had helped, at least to some extent, in either bringing a gas pipeline to their neighborhood or improving the quality of gas supply; the comparable proportion for electricity was 44 percent. Nevertheless, the participants cited cases of politicians promising natural gas supply during election campaigns but not following up on the promise after winning the election. Overbilling was perceived to be equally common: 67 percent reporting that overbilling occurred for natural gas compared with 70 percent for electricity. Outages and load shedding were perceived to be more frequent for natural gas than for electricity. It should be mentioned that these are perceptions, and that in practice, outages and load shedding are much less frequent for natural gas. The frequency of natural gas outages were reportedly higher now than in the past, and people noticed them more. With regard to overbilling, one possible scenario is that a bill is issued one month without the service provider actually reading the meter, and in the following month the meter is read and the household is charged for gas consumption in that month plus any shortfall from the previous month. This is perceived as "overbilling" by some, who forget or fail to notice the underbilling of the previous month. The same applies to overbilling of electricity. The 10 groups in Lower Sindh who were using natural gas reported that load shedding was frequent and that they had experienced overbilling. Chapter 3: Focus Group Discussions and Interviews 59 Figure 3.5: Natural Gas Supply 35 30 oupsrg Yes 25 20 of To some 15 extent 10 No Number 5 0 " s nt s nt ard pl ge s ection ur asye formal helps In cianitil que que he load edding "rew Fre outa Fre sh occ Po Conn Overbilling 3.15 There were far fewer complaints about the illegal supply of natural gas than of electricity. Only two groups said that illegal supply was common or on the rise. Where the poor were illegally connected to natural gas, eight groups--none of which were from lower low income neighborhoods--thought that the poor ended up paying more for natural gas than if they were legally connected. 3.16 The participants were asked whether there was increased use of natural gas for space heating and for heating water. The results are shown in Figure 3.6. Virtually, all groups agreed that there was increased use of natural gas for space and water heating. Figure 3.6: Use of Natural Gas for Space and Water Heating 18 16 14 oups grfo 12 Lower low 10 Upper low 8 Middle 6 4 Number 2 0 ace ath for for ath r for r for ret more sp ating we more ret ace fo ating we wa Use f ro ating Not aceps ating he m sp heating wa he m wate Not heating more he Use more he So So 3.17 Seventy-four focus groups lived in communities where LPG refill facilities were available, and 84 in communities where some households were using kerosene. Perceptions regarding the affordability of these two fuels are illustrated in Figure 3.7. Among those who said that these fuels were not affordable, all the middle- income groups in this category were in urban areas. The response presumably reflects cost competitiveness of natural gas compared to LPG and kerosene--namely, it is much 60 Pakistan: Household Use of Commercial Energy cheaper to use natural gas--and not that kerosene and LPG were inherently too expensive for this income category. Figure 3.7: Affordability of LPG and Kerosene 35 30 oupsrg 25 Lower low 20 of Upper low 15 Middle 10 Number5 0 ath e e ath e G G not t sen sen sen LP LP G no LP affordable somew affordable affordable Keroaffordable Kero somew affordable Kero affordable 3.18 A number of questions were asked about LPG supply: · Is LPG easily available most of the time? · Is there an outlet for obtaining cylinder refills in this neighborhood? · Is it easy to transport LPG cylinders from the retail outlet to your house? · Does short-selling (underfilling of LPG cylinders) occur? · Is there a black market for LPG in times of tight supply; that is, do prices rise exorbitantly at times? · Are there more suppliers of LPG today than in the past? · Has the quality of LPG supply service improved on account of increasing competition? 3.19 The responses are given in Figure 3.8. As expected, LPG was more easily available in urban areas than in rural. If there is no free home delivery of LPG cylinders, consumers have to make their own arrangements for taking empty cylinders to the nearest refill outlet and returning home with the refilled cylinders. Because LPG cylinders weigh some 15 kg, those who do not have easy access to transport vehicles or are not connected to refill outlets by tar roads find it difficult to carry LPG cylinders back and forth. This is one barrier to the uptake of LPG, especially in rural areas where road conditions are poorer. Most respondents replied that transporting LPG cylinders entailed some difficulties. Predictably, rural focus groups reported greater difficulties with LPG transport than urban ones; only one rural group said that LPG transport was easy. Short- selling was said to occur often or to some extent, as did sharply increasing LPG prices in times of supply shortage (described as selling LPG on the black market). The answers to the questions on short-selling and the black market did not differ between urban and rural areas. More than half of the focus groups replied that there was some improvement in the number of suppliers and quality of service, but not markedly so. Chapter 3: Focus Group Discussions and Interviews 61 Figure 3.8: LPG Supply 70 s 60 oup 50 Yes gr 40 of 30 To some extent 20 No Number10 0 s ting s re easily ailable facility easy ur Black ailable av LPG av porsna market Mo Better service G PL occ supplier Refill Tr Short-selling 3.20 The same questions were asked of kerosene, and the results are shown in Figure 3.9. Because kerosene can be sold in smaller quantities, it is easier to transport than is LPG. The focus groups indeed indicated that transporting kerosene was manageable. They also seemed to indicate that short-selling of kerosene was less frequent than that of LPG. Many more respondents said that there was no marked increase in the number of suppliers, or in the quality of service due to greater competition, than in the case of LPG. If, however, the number of kerosene consumers is declining, as the findings of this study suggest, then a market response to such a trend would be a decline rather than an increase in the number of kerosene suppliers. Figure 3.9 also shows participants' response as to whether informal credit for purchasing kerosene was available. About one- third replied that there was some type of informal credit. A comparable percentage said that some type of informal credit was available for LPG purchase also. Figure 3.9: Kerosene Supply 60 50 40 Yes groups of 30 To some extent 20 No Number 10 0 - al ort seneore er easily anspreasy Shortselling occurs ppliers Better form K vailablea seneore Mo service credit K t su In available 62 Pakistan: Household Use of Commercial Energy 3.21 The household expenditure survey analysis showed that kerosene consumption was on the decline. Questions were asked to probe the pattern of fuel switching from kerosene to other energy sources. The questions asked are listed below; results are given in Figure 3.10: · Is the use of kerosene for lighting declining because more houses are connected to electricity? · Is the use of kerosene for lighting declining because of improved electricity supply; for example, fewer hours of power outage in aggregate? · Is kerosene use for cooking declining because some households are switching to natural gas? · Is kerosene use for cooking declining because some households are switching to LPG? · Is kerosene use for cooking declining because some households are switching to biomass? · Is kerosene use for cooking declining because the price of kerosene has been rising? Figure 3.10: Switching Out of Kerosene 80 70 Yes oups 60 gr 50 of To some r 40 extent 30 20 No Numbe 10 0 y, de al for ss ing To t icitr rof ov G To price natur supply asgoking PL oking co omaib lematic cook elec availability electricity, impr To co ob To To for High pr 3.22 The two groups that replied that households were not switching from kerosene to electricity on account of greater connection rates lived in neighborhoods with no access to grid electricity. Of the 11 groups that answered "no" to the second question, one had no power grid in the neighborhood, four noted that power outages were frequent, and one reported that neither kerosene nor electricity was affordable. 3.23 With regard to fuel switching for cooking, the "no" answers could represent quite different scenarios. In the first instance, for households to be switching out of kerosene for cooking, they would have to have been using kerosene as a cooking fuel some time in the past. If they had not done so, they could also have provided a "no" answer (although the correct answer in that case would have been "not applicable"). Kerosene can impart the smell of a petroleum fuel to the food being cooked, and consequently is not favored for certain types of cooking. If households are currently using Chapter 3: Focus Group Discussions and Interviews 63 kerosene for cooking, a "no" could mean that they are continuing to use kerosene for cooking, or they are switching out of kerosene but to a fuel other than that stated in the question. The six groups that said that households were not switching to natural gas did not have access to natural gas. Of the 10 that said that households were not switching to LPG for cooking, 8 had access to natural gas. Of the remaining two, one group did not have access to LPG, and the other considered LPG unaffordable. Of the 23 groups that said that households were not shifting to biomass for cooking, 21 had access to natural gas. The remaining two, which had no easy access to LPG, reported that biomass was affordable. 3.24 The answer to the last question--is kerosene consumption declining because of rising price--was not entirely expected. As a function of socioeconomic class, the lower low-income groups were most likely to say "to some extent" (92 percent) instead of "yes" (8 percent), while the middle-income groups unanimously said "yes." Among the upper low-income groups, 71 percent said "yes," and the remaining 29 percent said "to some extent." 3.25 Biomass--fuelwood, dung, crop residues, and even sawdust--is widely used in rural areas. Many rural households have access to free biomass, but they have to supplement the supply with purchased biomass from time to time. Figure 3.11 shows the focus groups' answers to whether or not purchased biomass is affordable and its prices stable. The two middle-income groups that said that biomass was not affordable had access to natural gas. Of the 30 groups that said that biomass prices were not stable, 18 were in urban areas and 12 in rural. Predictably, a much greater proportion of rural groups than urban ones said that biomass was affordable. Figure 3.11: Affordability of Biomass 30 25 oupsrg 20 Lower low of 15 Upper low Middle 10 Number5 0 ath ath we able Not Prices st we leba not leba m Prices m st st Affordable So affordable affordable so Prices 3.26 Answers to the following questions are shown in Figure 3.12, split into urban and rural groups: · Is biomass readily available? · Is it easy to transport biomass from the site of purchase or collection to your house? 64 Pakistan: Household Use of Commercial Energy · Is biomass use declining? Predictably, biomass was more readily available in rural areas, and a greater percentage of urban groups said that less use was made of biomass today than in the past. Figure 3.12: Ease of Biomass Purchase and Consumption 40 35 Yes oupsrg 30 25 of To 20 some 15 extent 10 No Number5 0 y y tr n o la tro n use, al abilit ral abilit ba sp asee sp Rur asee use, ab rur Urban Ru Ur anrt anrt ur Less Less avail avail 3.27 The following questions concerning biomass use patterns were asked, and answers are summarized in Figure 3.13: · Do you prefer biomass for space heating? · Is there increased use of biomass for space heating? · Do you prefer biomass for heating water? · Is there increased use of biomass for heating water? · Is fuelwood use declining in favor of natural gas? · Is fuelwood use declining in favor of LPG? A surprising number of groups preferred biomass for space and water heating, and noted increased use. To a large extent, this may merely reflect the lower cash outlays required to use biomass. 3.28 Lastly, the focus groups were asked questions about the cleanliness, convenience, efficiency, health effects, time-saving features, and other attributes of different energy sources. The responses regarding cleanliness and convenience are shown in Figure 3.14 and Figure 3.15. The results are as expected, with electricity and natural gas being considered clean and convenient, kerosene less so, and biomass the least clean and convenient. Chapter 3: Focus Group Discussions and Interviews 65 Figure 3.13: Use of Biomass s 70 60 oup Yes gr 50 of 40 30 20 To some 10 extent Number 0 e e ac ac reta d d No ter s sp sp ing w wa woo woo rof ingeath rof rof ing ing gala G for PL re e heat eat heat er h from tur from na to Us Use Pref Pref to Shift Shift Figure 3.14: Are Energy Sources Clean? 100 90 80 oupsrg 70 60 Yes of 50 40 To some 30 extent 20 Number 10 No 0 y G e s ricit LP ga sen mass Natural Elect Kero Bio Figure 3.15: Are Energy Sources Convenient? 80 70 Yes oupsrg 60 50 To of 40 some 30 extent No 20 Number 10 0 y G e s ricit LP ga sen mass Natural Elect Kero Bio 66 Pakistan: Household Use of Commercial Energy 3.29 Questions were also asked about the impact of different fuel use (but not biomass) on the health of women and children. Natural gas was universally regarded as having a positive impact on health. Kerosene, in contrast, was regarded as having only a limited positive impact or no positive impact on health; no group answered "yes" to the question, "Does kerosene have a positive impact on women's (or children's) health?" The answers given were not the same for women and children, presumably reflecting differences in the duration of exposure to smoke. The cleaner the fuel, the more positive the impact on women's health; conversely, the dirtier the fuel, the more damaging. LPG was considered to have a more positive impact on women's health than children's, kerosene was considered less damaging to children's health than to women's. Answers to the question on whether a given fuel saves women's time was as expected--natural gas was universally regarded as saving time, LPG slightly less so, and kerosene much less. Because men are less involved in cooking in Pakistan, they might be expected to be less aware of the effects of fuel use on health, the time-saving nature of some fuels, or each fuel's cleanliness. But the results showed that there was essentially no gender difference in the responses. 3.30 In terms of efficiency, while the answers broadly tracked the expected trends--electricity and gaseous fuels are efficient, kerosene less so, and biomass the least efficient of all--there were a few exceptions. Some considered biomass to be efficient for certain purposes. For example, boiling milk using dung is considered "efficient" because it enables slow boiling and thickens milk, resulting in a taste favored by many. Figure 3.16: Are Energy Sources Efficient? 80 70 Yes oupsrg 60 50 To of 40 some 30 extent No 20 Number10 0 y G e s ricit LP ga sen mass Natural Elect Kero Bio Findings from Individual Interviews 3.31 Perceptions of affordability were similar between individual interviews and focus groups, with the exception of electricity. A far larger percentage of individuals than of focus groups said that electricity was affordable (63 percent versus 29 percent replied "yes"). Questions about the affordability of electricity and natural gas connection were not asked in individual interviews. Most responses were comparable between individual interviews and focus groups. Chapter 3: Focus Group Discussions and Interviews 67 3.32 One interesting question is whether LPG suppliers saw the state of the LPG market differently from the others. Responses to the questions concerning the LPG market are shown in Table 3.2. It is important to bear in mind that the sample sizes were small, particularly for LPG suppliers who numbered only five. Therefore, the results should not be over-interpreted. The views of the LPG suppliers and those of the others are essentially the same. In particular, the LPG suppliers did not think that short-selling was less frequent, or that the quality of service had improved, any more than the rest of the sample. Table 3.2: State of LPG Market Question Interviewee Mean Standard 95% Confidence Error Interval Is LPG Affordable? LPG Suppliers 2.0 0.0 2.0­2.0 Rest of Sample 2.1 0.1 1.9­2.2 Is LPG Easily Available? LPG Suppliers 2.0 0.0 2.0­2.0 Rest of Sample 2.0 0.1 1.8­2.1 Are there Refill Outlets in this LPG Suppliers 1.6 0.4 0.5­2.7 Community? Rest of Sample 1.7 0.1 1.5­1.8 Are there more Suppliers of LPG today? LPG Suppliers 2.2 0.2 1.6­2.8 Rest of Sample 2.6 0.1 2.4­2.7 Has the Quality of LPG Service Improved LPG Suppliers 2.2 0.2 1.6­2.8 as a Result of Greater Competition? Rest of Sample 2.1 0.1 2.0­2.2 Does Short-selling of LPG Occur? LPG Suppliers 1.8 0.2 1.2­2.4 Rest of Sample 1.8 0.1 1.7­2.0 Are LPG Prices Stable? LPG Suppliers 3.0 0.0 3.0­3.0 Rest of Sample 2.7 0.1 2.6­2.9 Note: "Yes" is 1, "to some extent" is 2, and "no" is 3. All answers are weighted equally. 3.33 A similar analysis was conducted with respect to the seven fuelwood suppliers. All the response averages were within 0.1 of each other when quantified in the same manner as in Table 3.2, with the exception of switching from biomass to LPG and the convenience of biomass use. The average score for fuel switching from biomass to LPG was 1.8 for biomass traders against 2.1 for the rest of the sample. This could merely reflect local market conditions. The average score for whether biomass is a convenient fuel was 1.9 for biomass traders against 2.2 for the others. 3.34 Another interesting question is whether local leaders had different perspectives on community-wide issues from the other participants. To investigate this point, answers to the following questions were analyzed by income status after separating the total sample into local leaders and the rest. The responses were also compared to those from focus group discussions: 68 Pakistan: Household Use of Commercial Energy · Is it easy to get an electricity connection? · Does giving informal "rewards" to electricity company staff speed up electricity connection? · Do politicians help bring power supply to the community or improve the quality of supply? · Are illegal electricity connections on the rise? · Is it easy to get a natural gas connection? · Does giving informal "rewards" to natural gas company staff speed up gas connection? · Do politicians help bring a natural gas pipeline to the community or improve the quality of gas supply? · Is there a black market for LPG in times of tight supply? 3.35 The differences in responses to the above questions are shown in Table 3.3. The table describes (1) the differences between responses of local leaders and those of other individuals interviewed, and (2) the differences between responses of focus groups and individuals interviewed. Table 3.3: Responses from Different Groups Local Leaders versus Others Individual Interviews versus Focus Groups Electricity Easy Connection No Difference 57% of focus groups said no, 12% said yes; 70% of individuals said yes, no individual said no Giving Informal "Rewards" Local leaders more likely to say Focus groups much more likely to say no, to Service Providers Helps that informal rewards helped; the especially among middle-income groups higher the income, the more likely an individual was to say that informal rewards helped Politicians Help No Difference Focus groups more likely to say no Rising Illegal Connections No Difference No Difference Natural gas Easy Connection Local leaders thought getting a Focus groups thought getting a new new connection was more difficult connection was more difficult than the individuals interviewed Giving Informal "Rewards" Local leaders less likely to say Individuals more likely than focus groups to Service Providers Helps that informal rewards helped to say that informal rewards helped Politicians Help No Difference No Difference LPG Black Market Exists Local leaders less likely to say Focus groups slightly more likely to say that black marketing of LPG that black marketing of LPG occurred occurred Chapter 3: Focus Group Discussions and Interviews 69 Observations 3.36 The focus group discussions and individual interviews found, perhaps predictably, that responses tended to be more closely correlated with the respondent's estimated income level than with gender or other characteristics. Natural gas was universally described as the cheapest, most efficient, and most convenient fuel. Some respondents had switched to natural gas only a few months earlier and reported that, at about Rs 200 per month, they were able to realize significant fuel cost savings; this included some respondents who had previously purchased fuelwood. People also indicated a willingness to pay a premium for supply reliability and convenience, two benefits of natural gas. 3.37 Many noted that electricity connections were quicker and that there was less load shedding than in the past, although some in remote areas reported higher frequency of load shedding than a few years ago. Some voiced the opinion that load shedding was in part due to illegal tapping of electricity, making cost recovery by utility firms more difficult. High electricity bills solicited a number of comments, and the poor found it especially difficult to pay for electricity. Some also complained about the burdensome process of paying utility bills through banks. 3.38 The existence of illegal connections to electricity or natural gas was acknowledged by many. The practice of connecting neighbors--who might otherwise find it difficult to pay the connection fee--to electricity or natural gas without approval was partly a result of mohallaydari (neighborly obligations). It was not unusual, however, to hear complaints of overcharging on the part of the neighbor who is officially connected. This seemed to happen in small towns or peri-urban neighborhoods. In one focus group, more than a dozen participants turned out to be buying natural gas informally from the same household. They complained of overcharging and speculated that the officially connected household might even be getting natural gas for its own consumption for free, cross-subsidized by the households informally supplied by it. There was quite a bit of resentment against the rich, who were believed to use their political influence to bypass the system and obtain free electricity. 3.39 Kerosene was widely available, and its use did not entail the same level of transport difficulties as LPG or fuelwood. However, its consumption was falling because of its high price, increasing availability of electricity (for lighting), and increasing access to natural gas and--in some cases--LPG. Of those who responded to the question of whether kerosene had a positive impact on women's health, 53 percent of focus groups and 32 percent of individuals replied "no." There was reportedly some short-selling of kerosene, further increasing the effective price of that fuel. 3.40 LPG was increasingly available, but door-to-door delivery seemed to occur only in certain urban locations. Transporting LPG to refill cylinders posed a challenge. Because the same-day turnaround of an empty cylinder could not be guaranteed, households needed to have either two cylinders or a backup fuel. Many, especially in rural areas, supplemented LPG with other fuels. Short-selling was more serious for LPG than for kerosene. Based on the number of cylinders the respondents said were needed, it was estimated that 15 to 18 kg of LPG would be needed per month per 70 Pakistan: Household Use of Commercial Energy household if it were not supplemented by other fuels. However, if underfilling of LPG was common, the amount of LPG effectively consumed would be lower. One interesting observation was that, because cooking with LPG was quicker, mothers could prepare breakfast quickly and children could get to school on time. One woman said that she used LPG to cook breakfast for this reason. 3.41 As expected, biomass remains widely popular in rural areas. Transporting bulky biomass posed a challenge, however. The composition of biomass used as a household fuel was very much location-specific. One rural group in Rawalpindi said that cash-free fuelwood was plentiful and dung was used as a natural fertilizer. Dung is a suitable cooking fuel for certain traditional dishes as well as for boiling milk. Biomass is the most commonly used fuel in rural areas for use in tandoors, which are bread-baking ovens. In addition, several respondents mentioned that slow heating and cooking by biomass meant that the family gathered around the stove in the cooking area at night and chatted, something that did not happen with more convenient fuels. But most rural people said they would rather switch to modern clean fuels if they could. 3.42 The poor tend to use any fuel that is cheap or free. A representative from one household said that they were using paper and cardboard packaging materials for bicycles for cooking and heating because these waste materials were available for free. During a field visit, the study team observed an application of sawdust that enabled slow burning and even heating for many hours. This application was said to emit less smoke, but the level of smoke appeared to depend on the nature of sawdust; others said that combustion of sawdust was smoky. Much fuelwood is given in kind by farmers to their laborers. If farm laborers' family members marry, farmers are often expected to give a rukh (an entire tree, used to cook feasts). 3.43 The affordability of biomass reported in this chapter refers to that of purchased biomass. As expected, the price of fuelwood varied widely, from Rs 40 to as high as Rs 200 for 40 kg. Households might spend Rs 40 to Rs 400 a month on fuelwood. Prices of dungcake could be anywhere from Rs 10 to Rs 80 per 40 kg, averaging around Rs 40­50. One dungcake supplier said that a family of five might spend about Rs 360 per month, although this seemed like a high estimate. 3.44 The adverse impact on health of solid biomass use appeared to be well known. One local leader reported that three women in his village, all professional bakers, lost their eyesight on account of what he believed was high exposure to smoke. Interestingly, one dungcake supplier said that the better-off believe that the smoke from fuelwood or dung combustion discolors the paint in their houses, and for this reason they preferred LPG. 3.45 The time-consuming nature of fuelwood collection and the impact on children's education was mentioned by many. In rural areas, it was reported that school attendance drops immediately after a storm, because parents ask their children to go out and collect branches that have fallen on the ground. Aside from taking children's time away from attending school and studying, fuelwood collection is tiring and children have less energy to concentrate on studies afterward. Chapter 3: Focus Group Discussions and Interviews 71 3.46 Members of low-income households that have switched from biomass to LPG said that the pressure on their budget was great. Those who switched from biomass to natural gas were usually happy and handled the transition with relative ease. Electricity as a share of household expenditures is particularly high in summer, and a number of respondents reported feeling stress as a result. For a poor household with a monthly income of Rs 7,000, Rs 500 from monthly consumption of 175 kW of electricity and another Rs 500 from using one LPG cylinder (or 15 liters of kerosene at Rs 33 per liter) would amount to 14 percent of monthly income being spent on energy--a very high percentage. Switching to natural gas would help considerably, because non-electricity energy expenditures can be cut back to Rs 200, but high (relative to income) electricity bills remain. The views expressed by respondents were consistent with these observations. To put this in perspective, however, quite a number also said that school fees concerned and worried them more than electricity bills. People had some control over electricity bills because consumption could be cut--one family reported moving the entire family to the same room to sleep in summer to save on electricity consumption for air conditioning--but they had no control over school fees. 4 Conclusions 4.1 This study examined the changing patterns of household energy use in Pakistan between 1994 and 2001, and conducted group and individual interviews to obtain qualitative information from September 2004 to June 2005. World oil prices nearly doubled between January 2004 and August 2005, but consumers in Pakistan were shielded from the increase to some extent because the government adopted a policy of not entirely passing along price through to consumers and began capping prices in 2004. Between May 1, 2004, and November 1, 2005, Arab Gulf kerosene and diesel prices rose 69 and 75 percent, respectively, whereas the increases of the ex-depot sale prices of these two fuels were limited to 37 and 53 percent, respectively, in Pakistan (MPNR 2005). Although a portion of electricity is generated from fuel oil, the price of which increased more than 70 percent since November 2003, electricity tariffs were frozen during this period. 4.2 Households faced energy price increases that far outstripped general inflation during the four survey periods. The CPI increased 64 percent between calendar 1994 and calendar 2001. During the same period, prices calculated from responses recorded in the survey data increased 270 percent for LPG (although the price in 2001 seemed markedly higher than the price announcements at the time) and 160 percent for kerosene. The average natural gas tariff for households increased 110 percent; the residential electricity tariff for those who consume more than 50 kWh but less than 100 kWh per month increased 100 percent. 4.3 At the same time, natural gas and electricity connections were steadily being extended to new households, and LPG also became more widely available. Rising electricity coverage reduced the need to use kerosene for lighting, although kerosene lamps might still be used during power outages. Households generally responded to higher kerosene prices by cutting back on consumption--enabled in part for some households by newly acquired electricity connections--or by dropping kerosene altogether. In contrast, households did not cut back on consumption of electricity or natural gas; if anything, they may have consumed more electricity with time. 4.4 Against the backdrop of fast-rising commercial energy prices, the percentage of households making use of free biomass increased between 1994 and 2001. The increase occurred in both urban and rural areas. The increase in the rate of uptake was greater in urban areas, although the uptake rate among rural households in 2001 was 73 74 Pakistan: Household Use of Commercial Energy more than sevenfold that among urban households. As expected, the increase in the uptake of free biomass was greater among the poor than among the non-poor, although, curiously, the greatest increase occurred in the sixth decile. The uptake of free fuelwood increased from 1994 to 1997, remained the same between 1997 and 1999, and then fell in 2001. The uptake of free dung and agricultural residues increased. In contrast, the uptake of purchased fuelwood fell some between 1994 and 2001, with the poor registering the greatest decline. In 2001, about one-fourth of households in both urban and rural areas were purchasing fuelwood. When the bottom three deciles were examined, the uptake rate in 2001 was 50 percent (decile 3) to 200 percent (decile 1) higher in urban areas. This is consistent with the greater availability of free biomass as well as greater cash constraints on households in rural areas. 4.5 One disturbing trend was the increasing number as well as percentage of households using only biomass and electricity or only biomass. In 2001, 32 percent of all households used only biomass and electricity, including 10 percent of the top decile. Their average monthly household expenditure was Rs 5,690, 12 percent below the national average; they spent an average of Rs 250 per month on electricity. To the extent that the biomass-electricity combination replaced biomass-kerosene, progress was made. A switch from kerosene-biomass-electricity to biomass-electricity is more difficult to interpret. If kerosene was used primarily during power outages and there were fewer power outages in 2001 than 1994, eliminating the need for kerosene as a backup fuel for lighting, then this would again represent progress. But if the reason for dropping kerosene was that it became too expensive to be used as a cooking or heating fuel, such a move would represent a socially undesirable--if not unavoidable--consequence of petroleum price liberalization against the backdrop of rising fuel prices. Although conducted several years after the last available survey, focus group discussions indeed indicated that substituting kerosene for biomass in cooking was occurring. A seemingly large increase in the percentage and number of households using only biomass is also of concern. 4.6 Household expenditure surveys showed that natural gas and electricity were two energy sources for which households were willing to pay. Both sources were regarded as convenient, clean, and efficient. Analysis suggested that users of electricity and natural gas did not cut back on monthly consumption in response to rising tariffs. By far the greatest expenditure was on electricity: Rs 320 per month on average, compared to Rs 240 on natural gas, Rs 230 on LPG, Rs 170 on fuelwood, Rs 100 on dung, and Rs 50 on kerosene, all averaged across purchasers of each fuel in 2001. 4.7 Focus group discussions and individual interviews confirmed that natural gas was nearly universally favored by households. It was considered an affordable fuel, and there were indications that households would accept higher gas prices than the tariffs in effect today. Those who were able to obtain natural gas connections tended to drop all other fuels, and some previous users of biomass even reported fuel cost savings. This wide acceptance of the benefits of natural gas would make it easier for the government to phase out the cross-subsidy for residential natural gas users. 4.8 Focus groups and individuals interviewed were less happy with electricity, the poor citing financial hardships caused by rising tariffs, and many expressing the view that free (illegal) use of electricity by the rich is raising the overall cost of electricity Chapter 4: Conclusions 75 supply. Many of the poor who cannot afford the connection fees arrange to be connected to their neighbors' electricity or natural gas supply. Because of a rising block tariff structure, those with secondary connections end up paying more, even if their neighbors do not cheat them, because the bulk of the supply to the officially connected neighbor is charged higher tariff rates. There was suspicion that the officially connected neighbors often overcharged, becoming free riders in effect. 4.9 Fewer respondents believed that sector deregulation led to an increase in the number of suppliers or an improvement in the quality of supply service for kerosene than for LPG. Very few reported a marked improvement for either fuel in this regard. To the extent that the number of kerosene users seems to be falling, a decrease in the number of shops selling kerosene would be the expected market response. Only a minority replied that transporting LPG cylinders for refill was not a problem. No one cited competition in prices as a mitigating factor against recent world oil price increases, although the counterfactual (that is, how much prices would change if a different level of competition prevailed) would not be easy to establish in this context. The respondents noted that some households substituted kerosene for biomass in cooking because of higher kerosene prices. A majority said that short-selling occurred, especially for LPG. Black marketing of LPG was also said to be common. 4.10 The most frequently found household energy mix in rural areas was biomass-electricity. The proportion of households using only these two energy sources was nearly independent of household income, averaging 29 percent in 2001. This suggests how much progress still remains to be made before modern commercial fuels become widely used for cooking and heating in rural Pakistan. The household fuel of choice--natural gas--will not be available for most rural households given infrastructure constraints. This leaves kerosene and LPG as the only viable alternatives, with the latter the fuel of choice for rural households that are willing and able to pay for it because of its widely recognized cleanliness and convenience. Given recent rises in the international price of LPG, the transition to LPG is likely to take a long time in rural areas. 4.11 For urban and peri-urban households, extending the supply of natural gas appears to be important. Focus groups and individuals with no access to natural gas universally expressed the desire to be connected to; some voiced the opinion that they would probably not mind paying more for it; and many cited the social benefits of switching to natural gas: a positive impact on the health of women and children from eliminating exposure to smoke, time saved from faster cooking and cleaning up afterward, time saved from not having to go out and collect fuelwood or other forms of biomass, and its relatively low cost compared to kerosene and LPG. 4.12 Given the seeming willingness of households to pay a premium for its convenience and cleanliness, phasing out cross-subsidies for residential users of natural gas seems political feasible. This action would free up more financial resources for the gas companies, enabling them to carry out pipeline extension projects more quickly. Natural gas pricing is one policy area that merits government attention. Connecting new households to natural gas presents a challenge. The current connection fees are already subsidized, but poor households find it difficult to pay them, forcing them to resort to 76 Pakistan: Household Use of Commercial Energy secondary connections as the only viable means of obtaining access; they often end up paying more for natural gas consumption in this way than they would if they were officially connected. 4.13 Providing new electricity connections to all households is arguably even more important, but it presents a greater challenge: unconnected households tend to be in rural areas lacking scale economies and good infrastructure. Given the large benefits of natural gas and electricity connection, it is worth pursuing avenues for enabling poor households to acquire new connections to the extent possible. Options that are revenue neutral are particularly worth considering, such as rolling connection fees into monthly payments. 4.14 It is not possible for the government to protect consumers from rising oil prices indefinitely. While the government may not be able to help consumers directly with prices, it is important that it continue to establish and enforce adequate technical and safety standards, and ensure consumer protection, especially against black marketing and short-selling. Both short-selling and the black market increase effective fuel prices and hurt consumers. Regulating the sector to minimize the occurrence of commercial malpractice is an important government role. A black market for LPG would emerge only in the face of a serious supply-demand imbalance, since the sector is supposed to be fully deregulated. In this regard, the government's attempt to keep end-user prices low by informally capping ex-plant prices of LPG may actually be backfiring. 4.15 If a detailed poverty and social impact analysis concerned with further improvement of sector performance were to be carried out, this study would provide useful information on the responses of households to changes in energy prices and availability. In addition, new data as well as updating of data used in this study would be needed. A new household expenditure survey might also become available. Additional data that would be useful include: · Data from utility companies on national as well as provincial consumption, revenue collection, costs of supply and new connections, outages, load shedding, and losses · Links between costs incurred by utility companies and fuel tax structure to the government budget · Recent trends in energy efficiency and scope for additional energy savings in home appliances, housing, and elsewhere. These data would enable more direct comparison of household survey data and utility company data, a better assessment of the ability of households to pay for energy at economic prices, and an analysis of options for government intervention to help the poor offset higher energy prices. At the same time, this study raised questions about available data. Some unexpected results, such as relatively high uptake rates of electricity and LPG in some rural areas, might suggest a sampling bias rather than a true reflection of higher uptake. Uncertainties about secondary or illegal connections made it difficult to reconcile household survey results with data provided by utility companies. These discrepancies are worth pursuing in future studies. Chapter 4: Conclusions 77 4.16 Allowing domestic fuel prices to rise with international prices does not imply that the government should stop helping the poor. Keeping prices artificially low distorts the market, prevents consumers from receiving correct price signals, prolongs non-essential use of energy, and slows network expansion in the case of electricity and natural gas. As some focus group participants said, as concerned as they were about increasing electricity tariffs, they were even more concerned about education fees, because they could cut back on electricity consumption but could not negotiate with schools to reduce school fees. Targeted social safety net measures--whereby support is given for the essential goods consumed by the truly needy, such as reduced fees for education--are likely to be much more cost effective than means to keep prices below market-determined levels. Compensation to the poor for rising energy prices should be integrated in broader, targeted, safety net programs. Annex 1 Energy Prices A1.1 The evolution of natural gas tariffs between July 1992 and the last price adjustment of January 2006 is shown in Table A1.1 to Table A1.3. Electricity tariffs are shown in Table A1.4 and Table A1.5 from August 1993 to November 2003, when they were last increased. The price structures of gasoline, kerosene, and light diesel oil since June 2003, and high speed diesel up to June 2004, are shown in Table A1.6 to. 79 80 Pakistan: Household Use of Commercial Energy Table A1.1: Natural Gas Tariff between July 1992 and February 1996 01-07- 01-04- 01-07- 19-08- 09-06- 01-07- 05-12- 14-06- 28-10- 12-02- Category 1992 1993 1993 1993 1994 1994 1994 1995 1995 1996 Domestic (i) Up to 3.55 Mcf/Month (up to 31.00 31.00 31.00 35.65 36.36 36.36 37.45 40.24 40.24 40.24 3.3719 MMBtu) (ii) 3.55 to 7.1 Mcf/Month 34.10 34.10 34.10 39.21 42.35 42.35 44.04 47.89 47.89 47.89 (3.3719-6.7438 MMBtu) (iii) 7.1 to 10.64 Mcf/Month (6.7438- 38.75 38.75 38.75 46.50 50.22 50.22 52.73 65.38 65.38 65.38 10.1157 MMBtu) (iv) 10.65 to 14.2 Mcf/Month 46.50 46.50 46.50 55.80 60.26 60.26 63.27 78.45 78.45 78.45 (10.1157-13.4876 MMBtu) (v) Above 14.2 Mcf/Month (Above 46.50 46.50 46.50 55.80 60.26 60.26 63.27 78.45 78.45 78.45 13.4876 MMBtu) Average Price = 0.5*(i)+0.3*(ii)+ 34.26 34.26 34.26 39.82 41.93 41.93 43.54 48.87 48.87 48.87 0.1*(iii)+0.05*(iv)+0.05*(v) Commercial 61.41 61.41 61.41 70.62 76.27 76.27 76.27 94.57 94.57 94.57 Industrial (i) General 54.57 54.57 54.57 62.75 67.77 67.77 67.77 84.05 84.05 84.05 (ii) Cement 39.54 39.54 39.54 39.54 67.77 67.77 67.77 84.05 84.05 84.05 CNG Station -- -- -- -- -- -- 62.75 65.89 70.50 70.50 Fertilizer SNGPL & SSGC Systems (i) For Feedstock Pak-American Fertiliser 22.50 22.50 22.50 22.50 22.50 22.50 22.50 27.90 27.90 27.90 FFC Jordan -- -- -- -- -- -- -- -- -- -- Dawood/PakArab 22.50 22.50 22.50 22.50 22.50 22.50 22.50 27.90 27.90 27.90 Pak-China/Hazara 22.50 22.50 22.50 22.50 22.50 22.50 22.50 27.90 27.90 27.90 (ii) For Fuel 54.73 54.73 60.20 66.22 66.22 66.22 66.22 84.05 84.05 84.05 Mari System (i) For Feedstock FFC/Engro Chemical (New) 9.75 9.75 9.75 9.75 9.75 9.75 9.75 9.75 9.75 9.75 FFC/Engro Chemical (Old) 9.75 9.75 9.75 9.75 9.75 9.75 9.75 12.09 12.09 12.09 Pak Saudi 9.75 9.75 9.75 9.75 9.75 9.75 9.75 12.09 12.09 12.09 (ii) For Fuel 43.44 43.44 47.78 52.56 52.56 52.56 52.56 66.62 66.62 66.62 Power SNGPL & SSGCL Systems 54.57 54.57 54.57 62.75 67.77 67.77 67.77 84.05 84.05 84.05 Liberty Power Limited -- -- -- -- -- -- -- -- -- -- Raw gas sold to WAPDA's Gudu Power Station (i) Sui Field (917Btu) 30.68 30.68 39.66 43.73 47.23 56.84 56.84 66.10 70.80 73.68 (ii) Kandhkot (866Btu) 28.92 28.92 37.40 41.24 44.54 53.59 53.59 62.37 66.81 69.53 (iii) Mari (754) 25.05 25.05 32.40 35.78 38.64 46.51 46.74 54.17 57.80 60.40 (iv) Sara/Suri Fields -- -- -- -- -- -- -- -- -- -- Notes: CNG = Compressed Natural Gas for automotive use; FFC = Fauji Fertiliser Company; SNGPL = Sui Northern Gas Pipelines Limited; SSGCL = Sui Southern Gas Company Limited; WAPDA = Water and Power Development Authority; -- not applicable. Tariffs are in Rs per MMBtu except for residential consumers, for whom tariffs are expressed as Rs per thousand cubic feet. Source: OGRA Annex 1: Energy Prices 81 Table A1.2: Natural Gas Tariff between May 1996 and March 2001 16-05- 01-07- 01-01- 30-04- 01-01- 17-04- 13-07- 16-08- 01-07- 17-03- Category 1996 1996 1997 1997 1999 1999 1999 1999 2000 2001 Domestic (i) Up to 3.55 Mcf/Month 42.69 42.69 49.09 49.09 49.09 49.09 49.09 55.23 63.51 63.51 (Up to 3.3719 MMBtu) (ii) 3.55 to 7.1 Mcf/Month 50.76 50.76 58.38 58.38 58.38 58.38 58.38 65.58 75.53 88.72 (3.3719-6.7438 MMBtu) (iii) 7.1 to 10.64 Mcf/Month (6.7438- 69.30 69.30 79.70 79.70 79.70 79.70 79.70 89.66 103.11 131.98 10.1157 MMBtu) (iv) 10.65 to 14.2 Mcf/Month 83.16 83.16 95.63 95.63 95.63 95.63 95.63 107.58 123.72 159.69 (10.1157-13.4876 MMBtu) (v) Above 14.2 Mcf/Month 83.16 83.16 95.63 95.63 95.63 95.63 95.63 107.58 123.72 172.46 (Above 13.4876 MMBtu) Average Price = 0.5*(i)+0.3*(ii)+ 51.82 51.82 59.59 59.59 59.59 59.59 59.59 67.01 77.10 88.18 0.1*(iii)+0.05*(iv)+0.05*(v) Commercial 100.24 100.24 115.28 115.28 115.28 115.28 115.28 135.02 155.27 177.63 Industrial (i) General 89.09 89.09 102.46 102.46 102.46 102.46 102.46 120.00 138.00 157.87 (ii) Cement 89.09 89.09 102.46 102.46 102.46 102.46 102.46 120.00 138.00 173.66 CNG Station 70.50 70.50 70.50 80.58 102.46 102.46 102.46 120.00 138.00 157.87 Fertilizer SNGPL & SSGC Systems (i) For Feedstock Pak-American Fertiliser 29.57 29.57 34.01 34.01 34.01 34.01 34.01 34.01 34.01 34.01 FFC Jordan -- -- -- -- -- 34.93 34.93 34.93 34.93 34.93 Dawood/PakArab 29.57 29.57 34.01 34.01 34.01 34.01 51.23 55.20 55.59 55.59 Pak-China/Hazara 29.57 29.57 34.01 34.01 34.01 34.01 55.76 60.08 60.08 60.08 (ii) For Fuel 89.09 89.09 102.46 102.46 102.46 102.46 102.46 120.00 138.00 167.92 Mari System (i) For Feedstock FFC/Engro Chemical (New) 9.75 9.75 9.75 9.75 9.75 9.75 9.75 9.75 9.75 9.75 FFC/Engro Chemical (Old) 12.82 20.34 23.39 23.39 23.39 23.39 40.81 43.76 43.76 43.76 Pak Saudi 12.82 20.34 23.39 23.39 23.39 23.39 31.96 34.43 34.43 34.43 (ii) For Fuel 70.62 70.62 81.21 81.21 81.21 81.21 81.21 95.05 109.31 125.05 Power SNGPL & SSGCL Systems 89.09 89.09 102.46 102.46 102.46 102.46 102.46 120.00 138.00 157.87 Liberty Power Limited -- -- -- -- -- -- -- -- 156.01 189.44 Raw gas sold to WAPDA's Gudu Power Station (i) Sui Field (917Btu) 78.10 80.07 92.08 92.08 92.08 92.08 92.08 107.84 124.02 141.88 (ii) Kandhkot (866Btu) 73.70 75.56 86.89 86.89 86.89 86.89 86.89 101.77 117.04 133.89 (iii) Mari (754) 64.02 65.65 75.50 75.50 75.50 75.50 75.50 88.42 101.68 116.32 (iv) Sara/Suri Fields -- -- -- -- -- -- -- -- -- -- Notes: CNG = Compressed Natural Gas for automotive use; FFC = Fauji Fertiliser Company; SNGPL = Sui Northern Gas Pipelines Limited; SSGCL = Sui Southern Gas Company Limited; WAPDA = Water and Power Development Authority; -- not applicable. Tariffs are in Rs per MMBtu except for residential consumers, for whom tariffs are expressed as Rs per thousand cubic feet. Source: OGRA 82 Pakistan: Household Use of Commercial Energy Table A1.3: Natural Gas Tariff between January 2002 and January 2006 01-01- 01-03- 23-07- 20-08- 25-10- 26-03- 01-07- 01-07- 02-02- 01-07- 01-01- Category 2002* 2002 2002 2002 2002 2003 2003 2004 2005 2005 2006 Domestic (i) Up to 3.55 Mcf/Month 66.86 66.86 66.86 66.86 67.95 67.95 69.31 73.95 73.95 73.95 80.98 (Up to 3.3719 MMBtu) (ii) 3.55 to 7.1 Mcf/Month 93.39 100.73 100.73 100.73 102.37 102.37 104.42 111.42 120.61 127.62 147.41 (3.3719-6.7438 MMBtu) (iii) 7.1 to 10.64 Mcf/Month (6.7438- 138.93 161.16 161.16 161.16 163.78 163.78 167.06 178.25 192.96 204.17 235.84 10.1157 MMBtu) (iv) 10.65 to 14.2 Mcf/Month 168.10 201.45 201.45 201.45 213.06 213.06 217.32 231.88 251.01 265.59 306.79 (10.1157-13.4876 MMBtu) (v) Above 14.2 Mcf/Month (Above 181.54 217.85 217.85 217.85 213.06 213.06 217.32 231.88 251.01 265.59 306.79 13.4876 MMBtu) Average Price = 0.5*(i)+0.3*(ii)+ 92.82 100.73 100.73 100.73 102.37 102.37 104.42 111.41 117.56 122.24 138.98 0.1*(iii)+0.05*(iv)+0.05*(v) Commercial 186.98 186.98 186.98 186.98 190.03 190.03 193.82 204.88 221.78 234.67 271.07 Industrial (i) General 166.18 166.18 166.18 166.18 168.88 168.88 172.26 182.09 197.11 208.56 240.91 (ii) Cement 194.68 194.68 194.68 222.32 222.32 222.32 209.78 209.78 227.09 240.28 277.55 CNG Station 166.18 166.18 166.18 166.18 168.88 168.88 172.26 182.09 197.11 208.56 240.91 Fertilizer SNGPL & SSGC Systems (i) For Feedstock Pak-American Fertiliser 34.01 36.77 36.77 36.77 36.77 36.77 36.77 36.77 36.77 36.77 36.77 FFC Jordan 34.93 36.77 36.77 36.77 36.77 36.77 36.77 36.77 36.77 36.77 36.77 Dawood/PakArab 55.59 59.59 59.59 62.57 62.57 62.57 67.26 73.99 73.99 83.24 83.24 Pak-China/Hazara 62.73 63.24 63.24 66.40 66.40 66.40 71.38 78.52 78.52 88.34 88.34 (ii) For Fuel 166.18 166.18 166.18 166.18 168.88 168.88 172.26 182.09 197.11 208.56 240.91 Mari System (i) For Feedstock FFC/Engro Chemical (New) 9.75 13.09 13.09 13.09 13.09 13.09 13.09 13.09 -- -- -- FFC/Engro Chemical (Old) 43.76 58.74 61.68 61.68 61.68 61.68 66.31 72.94 72.94 82.06 82.06 Pak Saudi 34.43 58.74 61.68 61.68 61.68 61.68 66.31 72.94 72.94 82.06 82.06 (ii) For Fuel 166.18 166.18 166.18 166.18 168.88 168.88 172.26 182.09 197.11 208.56 240.91 Power SNGPL & SSGCL Systems 166.18 166.18 166.18 166.18 168.88 168.88 172.26 182.09 197.11 208.56 240.91 Liberty Power Limited 202.98 202.98 202.98 190.80 190.80 222.89 235.77 234.33 262.03 262.03 303.25 Raw gas sold to WAPDA's Gudu Power Station (i) Sui Field (917Btu) 142.66 145.51 145.51 145.51 -- -- -- -- -- -- -- (ii) Kandhkot (866Btu) 134.62 160.54 160.54 160.54 163.15 163.15 166.41 175.9 190.41 201.47 232.72 (iii) Mari (754) 116.96 156.14 156.14 156.14 158.68 158.68 161.85 171.08 185.19 195.95 226.34 (iv) Sara/Suri Fields 156.14 156.14 156.14 156.14 158.68 158.68 161.85 171.08 185.19 195.95 -- Notes: CNG = Compressed Natural Gas for automotive use; FFC = Fauji Fertiliser Company; SNGPL = Sui Northern Gas Pipelines Limited; SSGCL = Sui Southern Gas Company Limited; WAPDA = Water and Power Development Authority; -- not applicable. Tariffs are in Rs per MMBtu except for residential consumers, for whom tariffs are expressed as Rs per thousand cubic feet. Source: OGRA Annex 1: Energy Prices 83 Table A1.4: Electricity Tariff between August 1993 and March 2001 10-8- 07-11- 09-07- 01-08- 01-01- 09-03- 01-04- 07-09- 30-12- 27-03- Tariff Category 1993 1994 1995 1996 1997 1998 1999 2000 2000 2001 Residential (A-1) Up to 50 kWh 0.76 0.80 0.89 0.90 1.04 1.34 1.34 1.34 1.34 1.34 0­100 kWh 0.95 1.02 1.21 1.23 1.41 1.97 1.64 1.77 1.86 2.06 101­300 kWh 1.17 1.30 1.72 1.75 1.93 2.85 2.52 2.65 2.74 2.94 301­1,000 kWh 2.10 2.38 3.28 3.33 3.67 4.88 4.71 4.84 4.93 5.13 Above 1,000 kWh 2.47 2.88 4.14 4.20 4.56 6.02 6.07 6.07 6.29 6.37 Commercial (A-2) Up to 100 kWh 3.17 4.19 4.80 4.87 5.29 6.38 6.38 6.38 6.38 6.46 Above 100 kWh 3.41 4.51 5.17 5.25 5.69 6.84 6.72 6.72 6.72 6.80 Industrial (B) B-1: Up to 40 kW, 400 V 2.19 2.89 3.29 3.35 3.68 4.46 4.40 4.53 4.53 4.61 B-2 (Normal): 41­500 kW, 400 V 1.68 2.48 2.94 3.00 3.33 4.17 3.63 3.76 3.76 3.84 3.16­ 3.51­ 3.51­ 3.59­ B-2 (TOD): 41­500 kW, 400 V -- -- -- -- -- -- 3.38 4.29 4.29 4.37 B-3 (Normal): Up to 5000 kW, 11/33 kV 1.67 2.31 2.56 2.60 2.87 3.55 2.86 2.99 2.99 3.07 B-3 (TOD): Up to 5000 kW, 11/33 1.52­ 2.09­ 2.15­ 2.19­ 2.44­ 3.02­ 2.97­ 3.10­ 3.10­ 3.18­ kV 2.46 3.03 3.09 3.13 3.26 3.84 3.79 3.92 3.92 4.00 B-4 (Normal): All Loads, 66/132/220 kV 1.62 2.23 2.47 2.51 2.75 3.40 2.70 2.83 2.83 2.91 B-4 (TOD): All Loads, 66/132/220 1.48­ 2.05­ 2.07­ 2.11­ 2.34­ 2.88­ 2.91­ 3.04­ 3.04­ 3.12­ kV 2.35 2.92 2.94 2.98 3.10 3.64 3.67 3.80 3.80 3.88 Bulk Supply (C) C-1(a): Up to 20 kW, 400 V 1.83 2.42 2.81 2.89 3.11 4.10 4.10 4.23 4.32 4.52 C-1(b): 21­500 kW, 400 V 1.68 2.31 2.73 2.83 3.05 4.11 3.94 3.89 4.16 4.36 C-2(a): Up to 5000 kW, 11/33 kV 1.69 2.23 2.59 2.67 2.89 3.82 3.82 3.95 4.04 4.24 C-2(b): All Loads, 66/132/220 kV 1.95 2.58 3.07 3.17 3.39 4.44 4.44 4.57 4.66 4.86 C-2(c): All Loads, 66/132/220 kV 1.65 2.28 2.70 2.80 3.02 3.02 3.88 4.01 4.10 4.30 C-3: All Loads, 66/132/220 kV 1.63 2.24 2.73 2.83 2.96 3.95 3.62 3.75 3.84 4.04 Agricultural Tubewells (D) D-1: SCARP 1.85 2.44 2.83 2.87 3.11 3.73 3.73 3.86 3.95 4.15 D-2(i): Punjab & Sindh 1.49 2.13 2.55 2.60 2.90 3.58 2.64 2.00 2.09 2.29 D-2(ii): NWFP & Balochistan 1.34 1.87 2.23 2.27 2.53 3.10 2.24 1.68 1.77 1.97 Temporary Supply (E) E-1(i): Residential Supply 2.70 2.94 4.08 3.67 4.13 5.44 5.44 5.44 5.66 5.86 E-1 (ii): Commercial Supply 4.19 5.54 5.45 6.44 6.98 8.40 8.40 8.40 8.40 8.48 E-2: Industrial Supply 2.74 3.62 4.12 4.18 4.56 5.52 5.52 5.52 5.52 5.60 Seasonal Industrial Supply (F) 2.74 3.61 4.11 4.19 4.60 5.58 5.50 5.66 5.66 5.76 Public Lighting (G) G-1(i): General A-1* A-1 A-1 A-1 A-1 A-1 A-1 A-1 A-1 A-1 G-1(ii): Without Line Charge 0.00 3.33 3.88 3.94 4.30 5.65 6.76 6.76 6.76 6.84 Housing with Industries (H) 2.04 2.70 3.15 3.20 3.54 4.63 4.81 4.94 5.03 5.23 Railway Traction (I) 1.61 2.13 2.48 2.52 2.56 3.70 3.86 3.99 4.08 4.28 Special Contract - AJK (K) -- 1.27 2.04 2.11 2.23 3.09 3.09 3.22 3.31 3.51 Notes: SCARP = Salinity Control and Reclamation Program; TOD = time of day; AJK = Azad Jammu and Kashmir; -- = not applicable. Tariffs are in Rs per kWh * Same schedule as A-1. Source: WAPDA. 84 Pakistan: Household Use of Commercial Energy Table A1.5: Electricity Tariff between August 2001 and November 2003 08-08- 06-11- 16-02- 15-05- 1308- 21-11- 10-12- 10-05- 19-08- 01-11- Tariff Category 2001 2001 2002 2002 2002 2002 2002 2003 2003 2003 Residential (A-1) Up to 50 kWh 1.34 1.34 1.34 1.34 1.34 1.34 1.34 1.34 1.34 1.34 0­100 kWh 2.06 2.16 2.08 2.21 2.40 2.47 2.36 2.49 2.52 2.48 101­300 kWh 2.94 3.04 2.96 3.09 3.28 3.35 3.24 3.37 3.40 3.36 301­1,000 kWh 5.13 5.23 5.15 5.28 5.47 5.54 5.43 5.56 5.59 5.55 Above 1,000 kWh 6.37 6.47 6.39 6.47 6.66 6.66 6.55 6.68 6.71 6.67 Commercial (A-2) Up to 100 kWh 6.46 6.56 6.48 6.56 6.76 6.76 6.59 6.59 6.62 6.52 Above 100 kWh 6.80 6.90 6.82 6.90 7.10 7.10 6.93 6.93 6.96 6.86 Industrial (B) B-1: Up to 40 kW, 400 V 4.61 4.71 4.63 4.76 5.08 5.14 4.99 5.08 5.11 5.01 B-2 (Normal): 41­500 kW, 400 V 3.12 3.22 3.14 3.27 3.59 3.65 3.50 3.59 3.62 3.52 3.71- 3.81- 3.73- 3.86- 4.18- 4.24- 4.09- 4.33- 4.27- 4.14- B-2 (TOD): 41­500 kW, 400 V 4.49 4.59 4.51 4.64 4.96 5.02 4.87 5.11 5.05 4.92 B-3 (Normal): Up to 5000 kW, 11/33 kV 3.07 3.17 3.09 3.22 3.50 3.56 3.41 3.50 3.53 3.43 B-3 (TOD): Up to 5000 kW, 11/33 3.18- 3.28- 3.20- 3.33- 3.61- 3.67- 3.52- 3.76- 3.70- 3.57- kV 4.00 4.10 4.02 4.15 4.43 4.49 4.34 4.58 4.52 4.39 B-4 (Normal): All Loads, 66/132/220 kV 2.91 3.01 2.93 3.06 3.30 3.36 3.21 3.30 3.33 3.23 B-4 (TOD): All Loads, 66/132/220 3.12- 3.22- 3.14- 3.27- 3.51- 3.57- 3.42- 3.66- 3.60- 3.47- kV 3.88 3.98 3.90 4.03 4.27 4.33 4.18 4.42 4.36 4.23 Bulk Supply (C) C-1(a): Up to 20 kW, 400 V 4.52 4.62 4.54 4.67 5.07 5.13 4.98 5.07 5.10 5.00 C-1(b): 21­500 kW, 400 V 4.36 4.46 4.38 4.51 4.71 4.77 4.62 4.71 4.74 4.64 C-2(a): Up to 5000 kW, 11/33 kV 3.70 4.20 4.12 4.25 4.43 4.49 4.34 4.43 4.46 4.36 C-2(b): All Loads, 66/132/220 kV C-2(c): All Loads, 66/132/220 kV C-3: All Loads, 66/132/220 kV 4.04 4.14 4.06 4.19 4.35 4.41 4.26 4.35 4.38 4.28 Agricultural Tubewells (D) D-1: SCARP 4.15 4.25 4.17 4.30 4.80 4.87 4.76 4.89 4.92 4.88 D-2(i): Punjab & Sindh 2.29 2.39 2.31 2.44 2.90 2.97 2.86 2.99 3.02 2.98 D-2(ii): NWFP & Balochistan 1.97 2.07 1.99 2.12 2.54 2.61 2.50 2.63 2.66 2.62 Temporary Supply (E) E-1(i): Residential Supply 5.86 5.86 5.88 6.01 6.20 6.27 6.16 6.29 6.32 6.28 E-1 (ii): Commercial Supply 8.48 8.58 8.50 8.58 8.70 8.70 8.53 8.53 8.56 8.46 E-2: Industrial Supply 5.60 5.70 5.62 5.75 6.07 6.13 5.98 6.07 6.10 6.00 Seasonal Industrial Supply (F) 5.76 5.89 5.79 5.95 6.35 6.43 6.24 6.35 6.39 6.26 Public Lighting (G) G-1(i): General A-1* A-1 A-1 A-1 A-1 A-1 A-1 A-1 A-1 A-1 G-1(ii): Without Line Charge 6.84 6.60 6.86 6.94 6.88 6.88 6.73 6.86 6.89 6.89 Housing with Industries (H) 5.23 5.12 5.25 5.38 5.88 5.95 5.84 5.97 6.00 5.96 Railway Traction (I) 4.28 4.38 4.30 4.43 4.93 5.00 4.85 4.98 5.01 5.01 Special Contract - AJK (K) 3.51 3.61 3.53 3.66 4.04 4.11 3.96 4.05 4.08 4.04 Notes: SCARP = Salinity Control and Reclamation Program; TOD = time of day; AJK = Azad Jammu and Kashmir; -- = not applicable. Tariffs are in Rs per kWh * Same schedule as A-1. Source: WAPDA. Annex 1: Energy Prices 85 Table A1.6: Price Structure of Regular Gasoline Excise Petroleum Inland OMC Dealer Sales Sale Date Ex-refinery Duty Levy PDC Freight Margin Margin Tax Price February 16, 2006 26.12 0.88 15.59 0.00 2.14 1.97 2.25 7.34 56.29 February 01, 2006 26.48 0.88 15.23 0.00 2.14 1.97 2.25 7.34 56.29 January 16, 2006 25.26 0.88 16.45 0.00 2.14 1.97 2.25 7.34 56.29 January 01, 2006 24.53 0.88 17.18 0.00 2.14 1.97 2.25 7.34 56.29 December 16, 2005 24.74 0.88 16.97 0.00 2.14 1.97 2.25 7.34 56.29 December 01, 2005 24.00 0.88 17.71 0.00 2.14 1.97 2.25 7.34 56.29 November 16, 2005 24.54 0.88 17.17 0.00 2.14 1.97 2.25 7.34 56.29 November 01, 2005 25.75 0.88 9.64 6.32 2.14 1.97 2.25 7.34 56.29 October 16, 2005 26.28 0.88 0.00 15.43 2.14 1.97 2.25 7.34 56.29 October 01, 2005 27.03 0.88 0.00 14.68 2.14 1.97 2.25 7.34 56.29 September 16, 2005 27.94 0.88 0.00 10.85 2.14 1.84 2.10 6.86 52.61 September 01, 2005 26.29 0.88 0.00 12.50 2.14 1.84 2.10 6.86 52.61 August 16, 2005 24.83 0.88 0.00 11.05 2.14 1.71 1.95 6.38 48.94 August 01, 2005 22.91 0.88 0.00 12.97 2.14 1.71 1.95 6.38 48.94 July 16, 2005 22.61 0.88 0.00 13.27 2.14 1.71 1.95 6.38 48.94 July 01, 2005 22.33 0.88 0.00 13.55 2.14 1.71 1.95 6.38 48.94 June 16, 2005 21.17 0.88 0.00 12.04 2.09 1.59 1.82 5.94 45.53 June 01, 2005 20.95 0.88 0.00 12.26 2.09 1.59 1.82 5.94 45.53 May 17, 2005 21.53 0.88 0.00 10.82 2.95 1.59 1.82 5.94 45.53 May 01, 2005 22.87 0.88 0.00 9.48 2.95 1.59 1.82 5.94 45.53 April 17, 2005 24.01 0.88 0.00 8.34 2.95 1.59 1.82 5.94 45.53 April 01, 2005 24.04 0.88 0.00 8.77 2.49 1.59 1.82 5.94 45.53 March 16, 2005 23.00 0.88 0.00 6.89 5.41 1.59 1.82 5.94 45.53 March 01, 2005 21.77 0.88 6.89 0.00 5.41 1.53 1.75 5.73 43.96 February 16, 2005 20.51 0.88 6.89 0.00 5.41 1.48 1.69 5.53 42.39 February 02, 2005 19.99 0.88 9.30 0.00 3.52 1.48 1.69 5.53 42.39 January 16, 2005 18.50 0.88 8.11 0.00 4.61 1.41 1.61 5.27 40.39 January 01, 2005 19.22 0.88 2.30 0.00 9.70 1.41 1.61 5.27 40.39 December 16, 2004 19.89 0.88 0.92 0.00 9.70 1.38 1.58 5.15 39.50 December 01, 2004 20.88 0.88 0.00 -1.12 8.70 1.29 1.47 4.82 36.92 November 16, 2004 20.88 0.88 0.00 -1.12 8.70 1.29 1.47 4.82 36.92 November 01, 2004 20.88 0.88 0.00 -1.12 8.70 1.29 1.47 4.82 36.92 October 16, 2004 20.88 0.88 0.00 -1.12 8.70 1.29 1.47 4.82 36.92 October 01, 2004 20.88 0.88 0.00 -1.12 8.70 1.29 1.47 4.82 36.92 September 16, 2004 19.76 0.88 0.00 0.00 8.70 1.29 1.47 4.82 36.92 September 01, 2004 20.79 0.88 0.00 -0.73 8.40 1.29 1.47 4.82 36.92 August 16, 2004 20.06 0.88 0.00 0.00 8.40 1.29 1.47 4.82 36.92 August 01, 2004 18.13 0.88 8.34 0.00 1.99 1.29 1.47 4.82 36.92 July 16, 2004 17.28 0.88 9.19 0.00 1.99 1.29 1.47 4.82 36.92 July 01, 2004 17.18 0.88 9.27 0.00 2.01 1.29 1.47 4.82 36.92 June 16, 2004 17.85 0.88 8.46 0.00 2.15 1.29 1.47 4.82 36.92 June 01, 2004 18.72 0.88 7.59 0.00 2.15 1.29 1.47 4.82 36.92 May 16, 2004 18.04 0.88 8.41 0.00 2.01 1.29 1.47 4.82 36.92 86 Pakistan: Household Use of Commercial Energy Excise Petroleum Inland OMC Dealer Sales Sale Date Ex-refinery Duty Levy PDC Freight Margin Margin Tax Price May 01, 2004 17.32 0.88 9.50 0.00 1.64 1.29 1.47 4.82 36.92 April 16, 2004 16.68 0.88 9.50 0.00 1.06 1.23 1.41 4.61 35.37 April 01, 2004 16.24 0.88 9.50 0.00 0.85 1.21 1.38 4.51 34.57 March 16, 2004 16.30 0.88 9.50 0.00 0.94 1.21 1.39 4.53 34.75 March 01, 2004 15.97 0.88 9.50 0.00 1.31 1.21 1.39 4.54 34.80 February 16, 2004 15.43 0.88 9.50 0.00 1.59 1.20 1.37 4.50 34.47 February 01, 2004 16.98 0.88 8.63 0.00 1.59 1.23 1.41 4.61 35.33 January 16, 2004 17.10 0.88 8.63 0.00 1.59 1.24 1.41 4.63 35.48 January 10, 2004 20.88 0.88 0.00 0.00 8.70 1.29 1.47 4.82 36.92 January 01, 2004 15.74 0.88 8.63 0.00 1.59 1.18 1.35 4.41 33.78 December 16, 2003 15.31 0.88 9.50 0.00 1.15 1.18 1.35 4.41 33.78 December 01, 2003 15.37 0.88 9.50 0.00 0.94 1.17 1.34 4.38 33.58 November 16, 2003 14.83 0.88 9.50 0.00 0.94 1.15 1.31 4.29 32.90 November 01, 2003 14.64 0.88 9.50 0.00 0.88 1.14 1.30 4.25 32.59 October 16, 2003 14.19 0.88 9.50 0.00 0.88 1.12 1.28 4.18 32.03 October 01, 2003 13.22 0.88 9.50 0.00 0.83 1.07 1.22 4.01 30.73 September 16, 2003 13.69 0.88 9.50 0.00 0.83 1.09 1.25 4.09 31.33 September 01, 2003 14.02 0.88 9.50 0.00 0.88 1.11 1.27 4.15 31.81 August 16, 2003 13.92 0.88 9.50 0.00 0.83 1.10 1.26 4.12 31.61 August 01, 2003 13.62 0.88 9.50 0.00 1.05 1.10 1.26 4.11 31.52 July 16, 2003 13.62 0.88 9.50 0.00 1.05 1.10 1.26 4.11 31.52 July 01, 2003 13.31 0.88 9.50 0.00 1.10 1.09 1.24 4.07 31.19 June 30, 2003 13.03 0.88 9.50 0.00 1.10 1.08 1.22 4.02 30.83 Notes: Prices in Rs per liter. OMC = oil marketing company. Source: www.ocac.org.pk/price.asp. Annex 1: Energy Prices 87 Table A1.7: Price Structure of Kerosene Excise Petroleum Inland OMC Dealer Sales Sale Date Ex-refinery Duty Levy PDC Freight Margin Margin Tax Price February 16, 2006 25.84 0.00 0.00 0.00 1.59 1.15 0.00 4.29 32.87 February 01, 2006 25.84 0.00 0.00 0.00 1.59 1.15 0.00 4.29 32.87 January 16, 2006 25.84 0.00 0.00 0.00 1.59 1.15 0.00 4.29 32.87 January 01, 2006 25.84 0.00 0.00 0.00 1.59 1.15 0.00 4.29 32.87 December 16, 2005 25.84 0.00 0.00 0.00 1.59 1.15 0.00 4.29 32.87 December 01, 2005 25.84 0.00 0.00 0.00 1.59 1.15 0.00 4.29 32.87 November 16, 2005 25.84 0.00 0.00 0.00 1.59 1.15 0.00 4.29 32.87 November 01, 2005 28.88 0.00 0.00 -3.04 1.59 1.15 0.00 4.29 32.87 October 16, 2005 32.03 0.00 0.00 -6.19 1.59 1.15 0.00 4.29 32.87 October 01, 2005 31.17 0.00 0.00 -5.33 1.59 1.15 0.00 4.29 32.87 September 16, 2005 31.91 0.00 0.00 -7.62 1.59 1.08 0.00 4.04 31.00 September 01, 2005 30.88 0.00 0.00 -6.59 1.59 1.08 0.00 4.04 31.00 August 16, 2005 29.34 0.00 0.00 -6.28 1.59 1.03 0.00 3.85 29.53 August 01, 2005 27.85 0.00 0.00 -4.79 1.59 1.03 0.00 3.85 29.53 July 16, 2005 28.75 0.00 0.00 -5.69 1.59 1.03 0.00 3.85 29.53 July 01, 2005 28.58 0.00 0.00 -5.52 1.59 1.03 0.00 3.85 29.53 June 16, 2005 26.86 0.00 0.00 -5.06 1.56 0.97 0.00 3.65 27.98 June 01, 2005 24.82 0.00 0.00 -3.02 1.56 0.97 0.00 3.65 27.98 May 17, 2005 26.63 0.00 0.00 -5.44 2.17 0.97 0.00 3.65 27.98 May 01, 2005 28.36 0.00 0.00 -7.17 2.17 0.97 0.00 3.65 27.98 April 17, 2005 29.09 0.00 0.00 -7.90 2.17 0.97 0.00 3.65 27.98 April 01, 2005 27.49 0.00 0.00 -5.67 1.54 0.97 0.00 3.65 27.98 March 16, 2005 25.71 0.00 0.00 -3.12 0.77 0.97 0.00 3.65 27.98 March 01, 2005 22.59 0.00 0.00 0.00 0.77 0.97 0.00 3.65 27.98 February 16, 2005 21.12 0.00 0.55 0.00 0.90 0.94 0.00 3.53 27.04 February 02, 2005 21.14 0.00 0.53 0.00 0.90 0.94 0.00 3.53 27.04 January 16, 2005 19.00 0.00 1.53 0.00 1.20 0.91 0.00 3.40 26.04 January 01, 2005 19.74 0.00 1.30 0.00 0.69 0.91 0.00 3.40 26.04 December 16, 2004 19.88 0.00 0.70 0.00 0.70 0.89 0.00 3.33 25.50 December 01, 2004 22.10 0.00 0.00 -2.07 0.00 0.84 0.00 3.13 24.00 November 16, 2004 22.68 0.00 0.00 -2.65 0.00 0.84 0.00 3.13 24.00 November 01, 2004 22.68 0.00 0.00 -2.65 0.00 0.84 0.00 3.13 24.00 October 16, 2004 22.68 0.00 0.00 -2.65 0.00 0.84 0.00 3.13 24.00 October 01, 2004 22.68 0.00 0.00 -2.65 0.00 0.84 0.00 3.13 24.00 September 16, 2004 20.74 0.00 0.00 -0.71 0.00 0.84 0.00 3.13 24.00 September 01, 2004 21.23 0.00 0.00 -1.20 0.00 0.84 0.00 3.13 24.00 August 16, 2004 20.22 0.00 0.00 -0.19 0.00 0.84 0.00 3.13 24.00 August 01, 2004 18.98 0.00 0.00 0.00 1.05 0.84 0.00 3.13 24.00 July 16, 2004 17.83 0.00 0.78 0.00 1.42 0.84 0.00 3.13 24.00 July 01, 2004 16.72 0.00 1.93 0.00 1.38 0.84 0.00 3.13 24.00 June 16, 2004 16.79 0.00 1.82 0.00 1.42 0.84 0.00 3.13 24.00 June 01, 2004 17.88 0.00 0.73 0.00 1.42 0.84 0.00 3.13 24.00 May 16, 2004 17.94 0.00 0.80 0.00 1.29 0.84 0.00 3.13 24.00 88 Pakistan: Household Use of Commercial Energy Excise Petroleum Inland OMC Dealer Sales Sale Date Ex-refinery Duty Levy PDC Freight Margin Margin Tax Price May 01, 2004 16.56 0.00 2.91 0.00 0.56 0.84 0.00 3.13 24.00 April 16, 2004 14.67 0.00 3.35 0.00 1.18 0.80 0.00 3.00 23.00 April 01, 2004 14.40 0.00 3.35 0.00 0.60 0.76 0.00 2.87 21.98 March 16, 2004 13.97 0.00 3.35 0.00 1.03 0.76 0.00 2.87 21.98 March 01, 2004 14.22 0.00 3.35 0.00 1.14 0.78 0.00 2.92 22.41 February 16, 2004 13.87 0.00 3.35 0.00 1.30 0.77 0.00 2.89 22.18 February 01, 2004 15.45 0.00 2.91 0.00 1.30 0.82 0.00 3.07 23.55 January 16, 2004 15.17 0.00 2.91 0.00 1.30 0.81 0.00 3.03 23.22 January 10, 2004 14.47 0.00 2.91 0.00 1.30 0.78 0.00 2.92 22.38 January 01, 2004 14.31 0.00 3.35 0.00 1.02 0.78 0.00 2.92 22.38 December 16, 2003 14.13 0.00 3.35 0.00 1.02 0.77 0.00 2.89 22.16 December 01, 2003 13.55 0.00 3.35 0.00 1.02 0.75 0.00 2.80 21.47 November 16, 2003 13.49 0.00 3.35 0.00 1.04 0.74 0.00 2.79 21.41 November 01, 2003 12.78 0.00 3.35 0.00 1.02 0.71 0.00 2.68 20.54 October 16, 2003 11.88 0.00 3.35 0.00 1.06 0.68 0.00 2.55 19.52 October 01, 2003 12.34 0.00 3.35 0.00 1.06 0.70 0.00 2.62 20.07 September 16, 2003 12.92 0.00 3.35 0.00 1.02 0.72 0.00 2.70 20.71 September 01, 2003 12.49 0.00 3.35 0.00 0.98 0.70 0.00 2.63 20.15 August 16, 2003 11.76 0.00 3.35 0.00 1.20 0.68 0.00 2.55 19.54 August 01, 2003 11.20 0.00 3.35 0.00 1.20 0.66 0.00 2.46 18.87 July 16, 2003 11.14 0.00 3.35 0.00 1.17 0.65 0.00 2.45 18.76 July 01, 2003 11.19 0.00 3.35 0.00 1.17 0.66 0.00 2.46 18.83 June 30, 2003 25.84 0.00 0.00 0.00 1.59 1.15 0.00 4.29 32.87 Notes: Prices in Rs per liter. OMC = oil marketing company. Source: www.ocac.org.pk/price.asp. Annex 1: Energy Prices 89 Table A1.8: Price Structure of Light Diesel Oil Excise Petroleum Inland OMC Dealer Sales Sale Date Ex-refinery Duty Levy PDC Freight Margin Margin Tax Price February 16, 2006 24.24 0.00 0.00 0.00 1.61 1.08 0.00 4.04 30.97 February 01, 2006 24.24 0.00 0.00 0.00 1.61 1.08 0.00 4.04 30.97 January 16, 2006 24.24 0.00 0.00 0.00 1.61 1.08 0.00 4.04 30.97 January 01, 2006 24.24 0.00 0.00 0.00 1.61 1.08 0.00 4.04 30.97 December 16, 2005 23.85 0.00 0.39 0.00 1.61 1.08 0.00 4.04 30.97 December 01, 2005 23.75 0.00 0.49 0.00 1.61 1.08 0.00 4.04 30.97 November 16, 2005 23.83 0.00 0.41 0.00 1.61 1.08 0.00 4.04 30.97 November 01, 2005 26.48 0.00 0.00 -2.24 1.61 1.08 0.00 4.04 30.97 October 16, 2005 28.51 0.00 0.00 -4.27 1.61 1.08 0.00 4.04 30.97 October 01, 2005 28.32 0.00 0.00 -4.08 1.61 1.08 0.00 4.04 30.97 September 16, 2005 28.78 0.00 0.00 -6.00 1.61 1.02 0.00 3.81 29.22 September 01, 2005 27.30 0.00 0.00 -4.52 1.61 1.02 0.00 3.81 29.22 August 16, 2005 26.45 0.00 0.00 -4.82 1.61 0.97 0.00 3.63 27.84 August 01, 2005 25.92 0.00 0.00 -4.29 1.61 0.97 0.00 3.63 27.84 July 16, 2005 27.44 0.00 0.00 -5.81 1.61 0.97 0.00 3.63 27.84 July 01, 2005 26.79 0.00 0.00 -5.16 1.61 0.97 0.00 3.63 27.84 June 16, 2005 24.99 0.00 0.00 -4.55 1.59 0.92 0.00 3.44 26.39 June 01, 2005 22.55 0.00 0.00 -2.11 1.59 0.92 0.00 3.44 26.39 May 17, 2005 23.25 0.00 0.00 -3.25 2.03 0.92 0.00 3.44 26.39 May 01, 2005 24.01 0.00 0.00 -4.01 2.03 0.92 0.00 3.44 26.39 April 17, 2005 24.87 0.00 0.00 -4.87 2.03 0.92 0.00 3.44 26.39 April 01, 2005 24.16 0.00 0.00 -3.35 1.22 0.92 0.00 3.44 26.39 March 16, 2005 22.86 0.00 0.00 -1.62 0.79 0.92 0.00 3.44 26.39 March 01, 2005 20.39 0.00 0.00 0.00 0.79 0.88 0.00 3.31 25.37 February 16, 2005 19.52 0.00 0.00 0.00 0.79 0.85 0.00 3.17 24.33 February 02, 2005 18.97 0.00 0.25 0.00 1.09 0.85 0.00 3.17 24.33 January 16, 2005 17.55 0.00 0.25 0.00 1.33 0.80 0.00 2.99 22.92 January 01, 2005 18.35 0.00 0.25 0.00 0.53 0.80 0.00 2.99 22.92 December 16, 2004 18.18 0.00 0.00 0.00 0.53 0.78 0.00 2.92 22.41 December 01, 2004 19.93 0.00 0.00 -2.49 0.13 0.73 0.00 2.75 21.05 November 16, 2004 20.00 0.00 0.00 -2.56 0.13 0.73 0.00 2.75 21.05 November 01, 2004 20.00 0.00 0.00 -2.56 0.13 0.73 0.00 2.75 21.05 October 16, 2004 20.00 0.00 0.00 -2.56 0.13 0.73 0.00 2.75 21.05 October 01, 2004 20.00 0.00 0.00 -2.56 0.13 0.73 0.00 2.75 21.05 September 16, 2004 18.79 0.00 0.00 -1.35 0.13 0.73 0.00 2.75 21.05 September 01, 2004 19.19 0.00 0.00 -1.75 0.13 0.73 0.00 2.75 21.05 August 16, 2004 18.44 0.00 0.00 -1.00 0.13 0.73 0.00 2.75 21.05 August 01, 2004 17.24 0.00 0.00 0.00 0.33 0.73 0.00 2.75 21.05 July 16, 2004 16.05 0.00 0.00 0.00 1.52 0.73 0.00 2.75 21.05 July 01, 2004 15.51 0.00 0.49 0.00 1.57 0.73 0.00 2.75 21.05 June 16, 2004 15.69 0.00 0.32 0.00 1.56 0.73 0.00 2.75 21.05 June 01, 2004 16.01 0.00 0.00 0.00 1.56 0.73 0.00 2.75 21.05 May 16, 2004 15.94 0.00 0.00 0.00 1.63 0.73 0.00 2.75 21.05 90 Pakistan: Household Use of Commercial Energy Excise Petroleum Inland OMC Dealer Sales Sale Date Ex-refinery Duty Levy PDC Freight Margin Margin Tax Price May 01, 2004 14.73 0.00 1.20 0.00 1.64 0.73 0.00 2.75 21.05 April 16, 2004 13.96 0.00 1.20 0.00 1.55 0.70 0.00 2.61 20.02 April 01, 2004 13.64 0.00 1.20 0.00 1.39 0.68 0.00 2.54 19.45 March 16, 2004 13.74 0.00 1.20 0.00 1.54 0.69 0.00 2.58 19.75 March 01, 2004 13.88 0.00 1.20 0.00 1.54 0.69 0.00 2.60 19.91 February 16, 2004 13.61 0.00 1.20 0.00 1.75 0.69 0.00 2.59 19.84 February 01, 2004 14.74 0.00 0.44 0.00 1.75 0.71 0.00 2.65 20.29 January 16, 2004 14.19 0.00 0.44 0.00 1.75 0.68 0.00 2.56 19.62 January 10, 2004 13.36 0.00 0.44 0.00 1.75 0.65 0.00 2.43 18.63 January 01, 2004 12.67 0.00 1.20 0.00 1.68 0.65 0.00 2.43 18.63 December 16, 2003 12.87 0.00 1.20 0.00 1.26 0.64 0.00 2.40 18.37 December 01, 2003 12.46 0.00 1.20 0.00 1.26 0.62 0.00 2.33 17.87 November 16, 2003 12.58 0.00 1.20 0.00 1.16 0.62 0.00 2.33 17.89 November 01, 2003 12.13 0.00 1.20 0.00 1.15 0.60 0.00 2.26 17.34 October 16, 2003 11.58 0.00 1.20 0.00 0.95 0.57 0.00 2.15 16.45 October 01, 2003 12.13 0.00 1.20 0.00 0.95 0.59 0.00 2.23 17.10 September 16, 2003 12.12 0.00 1.20 0.00 0.86 0.59 0.00 2.22 16.99 September 01, 2003 11.94 0.00 1.20 0.00 0.80 0.58 0.00 2.18 16.70 August 16, 2003 11.34 0.00 1.20 0.00 1.00 0.56 0.00 2.12 16.22 August 01, 2003 11.23 0.00 1.20 0.00 1.00 0.56 0.00 2.10 16.09 July 16, 2003 11.21 0.00 1.20 0.00 1.32 0.57 0.00 2.15 16.45 July 01, 2003 11.05 0.00 1.20 0.00 1.32 0.57 0.00 2.12 16.26 June 30, 2003 23.83 0.00 0.41 0.00 1.61 1.08 0.00 4.04 30.97 Notes: Prices in Rs per liter. OMC = oil marketing company. Source: www.ocac.org.pk/price.asp. Annex 1: Energy Prices 91 Table A1.9: Price Structure of High Speed Diesel Excise Petroleum Inland OMC Dealer Date Ex-refinery Duty Levy PDC1 Freight Margin Margin Sales Tax Sale Price June 16, 2005 26.20 0.00 0.00 -4.46 1.35 1.02 1.16 3.79 29.06 June 01, 2005 23.77 0.00 0.00 -2.03 1.35 1.02 1.16 3.79 29.06 May 17, 2005 25.02 0.00 0.00 -3.59 1.66 1.02 1.16 3.79 29.06 May 01, 2005 25.68 0.00 0.00 -4.25 1.66 1.02 1.16 3.79 29.06 April 17, 2005 27.00 0.00 0.00 -5.57 1.66 1.02 1.16 3.79 29.06 April 01, 2005 26.07 0.00 0.00 -4.17 1.19 1.02 1.16 3.79 29.06 March 16, 2005 24.62 0.00 0.00 -1.92 0.39 1.02 1.16 3.79 29.06 March 01, 2005 21.60 0.00 0.44 0.00 0.39 0.98 1.12 3.68 28.21 February 16, 2005 21.20 0.00 0.00 0.00 0.39 0.95 1.08 3.54 27.16 February 02, 2005 19.96 0.00 0.38 0.00 1.25 0.95 1.08 3.54 27.16 January 16, 2005 18.85 0.00 0.65 0.00 1.33 0.91 1.05 3.42 26.21 January 01, 2005 20.05 0.00 0.65 0.00 0.13 0.91 1.05 3.42 26.21 December 16, 2004 20.50 0.00 0.00 0.00 0.12 0.91 1.04 3.39 25.96 December 01, 2004 21.91 0.00 0.00 -2.54 0.00 0.85 0.97 3.18 24.37 November 16, 2004 22.81 0.00 0.00 -3.44 0.00 0.85 0.97 3.18 24.37 November 01, 2004 23.15 0.00 0.00 -3.78 0.00 0.85 0.97 3.18 24.37 October 16, 2004 22.25 0.00 0.00 -2.88 0.00 0.85 0.97 3.18 24.37 October 01, 2004 21.75 0.00 0.00 -2.38 0.00 0.85 0.97 3.18 24.37 September 16, 2004 20.54 0.00 0.00 -1.17 0.00 0.85 0.97 3.18 24.37 September 01, 2004 20.60 0.00 0.00 -1.23 0.00 0.85 0.97 3.18 24.37 August 16, 2004 19.94 0.00 0.00 -0.57 0.00 0.85 0.97 3.18 24.37 August 01, 2004 18.13 0.00 0.00 0.00 1.24 0.85 0.97 3.18 24.37 July 16, 2004 16.71 0.00 1.01 0.00 1.65 0.85 0.97 3.18 24.37 July 01, 2004 16.57 0.00 1.24 0.00 1.56 0.85 0.97 3.18 24.37 June 16, 2004 16.80 0.00 0.94 0.00 1.63 0.85 0.97 3.18 24.37 June 01, 2004 17.16 0.00 0.58 0.00 1.63 0.85 0.97 3.18 24.37 May 16, 2004 16.84 0.00 1.02 0.00 1.51 0.85 0.97 3.18 24.37 May 01, 2004 15.42 0.00 2.62 0.00 1.33 0.85 0.97 3.18 24.37 April 16, 2004 14.86 0.00 3.00 0.00 1.23 0.84 0.96 3.13 24.02 April 01, 2004 14.52 0.00 2.98 0.00 1.12 0.82 0.94 3.06 23.44 March 16, 2004 14.69 0.00 2.98 0.00 1.22 0.83 0.95 3.10 23.77 March 01, 2004 14.65 0.00 2.98 0.00 1.26 0.83 0.95 3.10 23.77 February 16, 2004 14.91 0.00 2.50 0.00 1.48 0.83 0.95 3.10 23.77 February 7, 2004 15.80 0.00 1.68 0.00 1.48 0.83 0.95 3.11 23.85 February 1, 2004 14.75 0.00 2.73 0.00 1.48 0.83 0.95 3.11 23.85 January 16, 2004 14.75 0.00 2.73 0.00 1.48 0.83 0.95 3.11 23.85 January 1, 2004 13.90 0.00 2.73 0.00 1.48 0.79 0.91 2.97 22.78 December 16, 2003 13.30 0.00 3.50 0.00 1.31 0.79 0.91 2.97 22.78 December 1, 2003 13.57 0.00 3.50 0.00 1.13 0.80 0.91 2.99 22.90 November 16, 2003 13.03 0.00 3.50 0.00 1.13 0.77 0.88 2.90 22.21 November 1, 2003 13.00 0.00 3.50 0.00 0.96 0.77 0.88 2.87 21.98 October 16, 2003 12.31 0.00 3.50 0.00 0.96 0.73 0.84 2.75 21.09 October 1, 2003 12.27 0.00 3.50 0.00 0.92 0.73 0.84 2.74 21.00 September 16, 2003 12.85 0.00 3.50 0.00 0.92 0.76 0.87 2.84 21.74 September 1, 2003 12.56 0.00 3.50 0.00 0.88 0.75 0.85 2.78 21.32 92 Pakistan: Household Use of Commercial Energy Excise Petroleum Inland OMC Dealer Date Ex-refinery Duty Levy PDC1 Freight Margin Margin Sales Tax Sale Price August 16, 2003 12.01 0.00 3.50 0.00 0.82 0.72 0.82 2.68 20.55 August 1, 2003 11.41 0.00 3.50 0.00 1.02 0.70 0.80 2.61 20.04 July 16, 2003 11.32 0.00 3.50 0.00 1.02 0.69 0.79 2.60 19.92 July 1, 2003 11.47 0.00 3.50 0.00 1.17 0.71 0.81 2.65 20.31 June 16, 2003 11.24 0.00 3.50 0.00 1.17 0.70 0.80 2.61 20.02 June 1, 2003 11.08 0.00 3.50 0.00 1.25 0.69 0.79 2.60 19.91 May 16, 2003 11.08 0.00 3.50 0.00 1.25 0.69 0.79 2.60 19.91 May 1, 2003 11.22 0.00 3.50 0.00 1.35 0.71 0.81 2.64 20.23 April 16, 2003 12.06 0.00 3.50 0.00 1.35 0.74 0.85 2.78 21.28 April 1, 2003 14.66 0.00 3.50 0.00 1.33 0.86 0.98 3.20 24.53 March 16, 2003 15.90 0.00 3.50 0.00 1.20 0.91 1.04 3.38 25.93 March 1, 2003 15.27 0.00 3.50 0.00 1.14 0.88 1.00 3.27 25.06 February 16, 2003 13.93 0.00 3.50 0.00 1.14 0.82 0.93 3.05 23.37 February 1, 2003 12.62 0.00 3.50 0.00 1.14 0.76 0.87 2.83 21.72 January 16, 2003 12.63 0.00 3.50 0.00 1.13 0.76 0.87 2.83 21.72 January 1, 2003 12.16 0.00 3.50 0.00 1.13 0.74 0.85 2.76 21.14 December 16, 2002 11.43 0.00 3.50 0.00 1.13 0.71 0.81 2.64 20.22 December 1, 2002 11.28 0.00 3.50 0.00 1.12 0.70 0.80 2.61 20.01 November 16, 2002 12.59 0.00 3.28 0.00 1.12 0.75 0.85 2.79 21.38 November 1, 2002 13.27 0.00 3.07 0.00 1.12 0.77 0.88 2.87 21.98 October 16, 2002 13.03 0.00 2.52 0.00 1.12 0.73 0.84 2.74 20.98 October 1, 2002 12.53 0.00 2.05 0.00 1.12 0.69 0.79 2.58 19.76 September 16, 2002 12.09 0.00 2.49 0.00 1.12 0.69 0.79 2.58 19.76 September 1, 2002 10.47 1.05 2.89 0.00 1.07 0.68 0.78 2.54 19.48 August 16, 2002 10.26 1.03 2.89 -0.05 1.04 0.66 0.76 2.49 19.08 August 1, 2002 10.34 1.03 2.76 0.00 1.04 0.66 0.76 2.49 19.08 July 16, 2002 10.43 1.04 2.76 0.12 1.04 0.67 0.77 2.52 19.35 July 1, 2002 11.50 0.00 2.76 0.12 1.04 0.68 0.78 2.53 19.41 June 16, 2002 10.57 0.00 3.01 0.67 1.04 0.57 0.67 2.48 19.01 June 1, 2002 10.84 0.25 3.15 0.13 1.01 0.57 0.67 2.49 19.11 May 16, 2002 10.79 0.25 2.41 0.28 0.98 0.55 0.64 2.39 18.29 May 1, 2002 10.40 0.25 0.99 -0.05 0.98 0.47 0.55 2.04 15.63 April 16, 2002 10.48 0.25 0.00 0.96 0.88 0.47 0.55 2.04 15.63 April 1, 2002 9.95 0.25 1.05 0.44 0.88 0.47 0.55 2.04 15.63 March 16, 2002 8.84 0.25 2.81 -0.21 0.88 0.47 0.55 2.04 15.63 March 1, 2002 8.75 0.25 2.81 0.14 0.87 0.30 0.47 2.04 15.63 February 16, 2002 8.47 0.25 2.81 0.14 0.87 0.29 0.46 1.99 15.28 February 1, 2002 8.29 0.25 2.81 -0.13 0.88 0.28 0.44 1.92 14.74 January 16, 2002 8.25 0.25 2.81 0.19 0.90 0.29 0.45 1.97 15.11 January 1, 2002 7.97 0.25 2.81 -0.06 0.90 0.28 0.43 1.89 14.47 December 16, 2001 8.04 0.25 2.06 -0.73 0.90 0.24 0.38 1.67 12.81 December 1, 2001 9.29 0.25 2.06 -0.38 0.93 0.28 0.44 1.93 14.80 November 16, 2001 9.72 0.25 2.06 -0.66 1.01 0.29 0.45 1.97 15.09 November 1, 2001 10.29 0.25 2.06 0.00 1.01 0.32 0.50 2.16 16.59 October 16, 2001 10.87 0.25 2.06 0.00 1.04 0.33 0.52 2.26 17.33 October 1, 2001 12.39 0.25 2.06 0.00 1.04 0.37 0.58 2.50 19.19 September 16, 2001 11.74 0.25 2.06 -0.02 0.89 0.35 0.55 2.37 18.19 Annex 1: Energy Prices 93 Excise Petroleum Inland OMC Dealer Date Ex-refinery Duty Levy PDC1 Freight Margin Margin Sales Tax Sale Price September 1, 2001 11.38 0.25 2.06 0.01 0.88 0.34 0.53 2.32 17.77 August 16, 2001 11.32 0.25 1.56 -0.35 0.95 0.32 0.50 2.18 16.73 August 1, 2001 11.80 0.25 1.56 -0.19 0.95 0.34 0.53 2.29 17.53 July 16, 2001 11.93 0.25 1.56 -0.08 0.95 0.34 0.53 2.32 17.80 July 1, 2001 12.22 0.25 1.56 0.00 0.95 0.35 0.55 2.38 18.26 Notes: Prices in Rs per liter. OMC =oil marketing company. 1Prior to 2004, this adjustment figure was not termed a PDC, but simply a differential. Source: HDIP and MPNR (2005). Annex 2 Household Survey Description A2.1 This annex describes the 1993­94 and 1996­97 Household Integrated Economic Survey (HIES), and 1998­99 and 2001­02 Pakistan Integrated Household Survey (PIHS). In 1998, the HIES and PIHS were merged, and, as a result, minor modifications were made to the data collection methods and questionnaire to reflect the integration. The 2001­02 survey was the second survey after the merger. A2.2 Data from the four provinces--Balochistan, the Northwest Frontier Province (NWFP), Punjab, and Sindh--were available in all four surveys. For the data outside of the four provinces, availability varied across surveys. The most comprehensive was the 1998­99 PIHS, which contained data from Azad Jammu and Kashmir (3.2 million people, 490,000 households), the Federally Administered Tribal Areas (2.1 million people, 250,000 households), and the Northern Areas (1.2 million people, 150,000 households). The total sample size in the three areas was 1,482. These areas accounted for about 5 percent of the total population and households in the country. The 2001­02 PIHS had data from Azad Jammu and Kashmir (3.0 million people, 440,000 households) and the Northern Areas (0.9 million people, 110,000 households), with a combined sample size of 1,091 and accounting for 3 percent of the total population and households. The 1996­97 HIES had only Azad Jammu and Kashmir (2.0 million people, 330,000 households, sample size of 639, 2 percent of the total population and households); while the 1993­94 HIES had no comparable data. As annex 4 shows, these areas reported virtually no consumption of natural gas and much higher consumption of kerosene than the rest of the country. The differences caused by the varied sampling areas are small but should be borne in mind in interpreting the data. A2.3 The information collected by the HIES is shown in Table A2.1. Energy sources are divided into those that have been paid for in cash and those that have been given to, or produced or collected by, the household. Quantities consumed were not requested for natural gas and electricity. The monetary values of cash-free fuels are likely to contain large uncertainties, especially if there is no active market in the vicinity (which could be the case with biomass). The PIHS collected nearly identical information, but bagasse was combined with other agricultural wastes into a single category, reducing the number of categories from 10 in Table A2.1 to 9. Biomass is defined in this report to comprise fuelwood, dung, bagasse, and agricultural residues. There was little use of coal and peat, and they are not included in this report. For the first three surveys, the unit for 95 96 Pakistan: Household Use of Commercial Energy the quantity of liquefied petroleum gas (LPG) consumed was the number of cylinders. The most common cylinder size in Pakistan for use by households has been 11.8 kilograms (kg). In the 2001­02 PIHS, the unit for the quantity of LPG consumed was changed to kg. This change in unit appears to have resulted in several cases of misrecording, with some enumerators apparently continuing to write down the number of cylinders instead of kilograms of LPG. Table A2.1: HIES Questions on Fuel and Lighting Paid and Unpaid and Consumed Consumed In Kind Own Produced Gifts Energy Source Unit Q V Q V Q V Q V Fuelwood Kg Kerosene Liter Charcoal Kg Coal and Peat Kg Dungcakes (Dry) Kg Natural Gas -- N.R. N.R. N.R. N.R. LPG Number Electricity -- N.R. N.R. N.R. N.R. Bagasse Kg Agricultural Wastes Kg Notes: -- = not applicable; N.R. = response not requested; Q = quantity; V = value in whole Rs. In kind = given as wages and salaries in kind and consumed; own produced = produced by the household and consumed; gifts = received as assistance, gifts, dowry, inheritance, or from other sources. Agricultural wastes are those used for fuel purposes, such as cotton stick, sawdust, shrubs, weeds, and tobacco sticks. A2.4 Because the government had pan-territorial pricing policies for kerosene, natural gas, and electricity during the survey periods, and for natural gas until 2000, nominal, and not adjusted, expenditures and prices were examined for these energy sources. Prices were calculated for all fuels (except natural gas) by dividing expenditures by quantities. Households reporting exceptionally high computed prices for kerosene or LPG were considered outliers and were not used in the analysis. This exclusion resulted in 45 and 17 observations deleted from the 1993­94 and 1996­97 HIES, respectively. In addition, 4 observations for which the respondent appeared to report kilograms of LPG purchased rather than number of cylinders were accordingly adjusted in the 1996­97 HIES survey data. A2.5 The total population was divided into 10 deciles on the basis of expenditure per capita (excluding expenditures on durable goods). Each expenditure decile contained the same number of individuals. Expenditures were adjusted for geographical differences in the cost of living, with the adjustment factor representing the average for the country. Decile 1 represents the lowest expenditure per capita and decile 10 the highest. Annex 3 Household Survey Findings, National Analysis A3.1 This annex supplements chapter 2 and provides additional results from the analysis of the four surveys, looking at the entire survey without subdividing results by province. The number of people in each decile, split into urban and rural areas, is shown in Table A3.1. For 2001, the table shows, in addition to the number of individuals in each decile and location, the number of households in each category as well as the average household size. The number of households was fairly constant in rural areas across the 10 deciles, but in urban areas the number increased sixfold from decile 1 to decile 10. In all four surveys, there were more individuals in rural areas in each decile except the top decile; in that decile, the number of people in urban areas exceeded that in rural. Of the 51.5 million people who were in the bottom four deciles in 2001, 81 percent resided in rural areas. Table A3.1: Population and Household Breakdown as a Function of per Capita Expenditure Decile 1994 1997 1999 2001 Urban Rural Urban Rural Urban Rural Urban # of Average Rural # of Average Decile Pop Pop Pop Pop Pop Pop Pop HH HH Size Pop HHs HH Size 1 1.3 7.8 1.5 8.5 2.1 10.1 2.1 0.22 9.6 10.8 1.2 9.3 2 1.6 7.5 2.0 8.0 2.4 9.6 2.6 0.29 8.8 10.3 1.2 8.5 3 1.7 7.3 2.2 7.8 2.5 9.6 2.5 0.28 8.8 10.4 1.3 8.1 4 2.2 6.9 2.5 7.5 2.7 9.4 2.7 0.32 8.3 10.2 1.3 7.9 5 2.4 6.7 2.7 7.2 2.8 9.2 3.3 0.40 8.2 9.6 1.3 7.2 6 2.9 6.2 3.0 6.9 3.2 8.8 3.4 0.45 7.5 9.5 1.4 6.9 7 2.8 6.3 2.9 7.0 3.4 8.6 4.0 0.53 7.4 8.9 1.4 6.5 8 3.3 5.8 3.6 6.4 3.6 8.5 4.4 0.65 6.9 8.4 1.4 6.1 9 3.7 5.4 4.1 5.8 4.5 7.6 4.7 0.77 6.2 8.2 1.5 5.5 10 5.1 4.0 5.6 4.3 6.7 5.4 6.8 1.4 4.9 6.1 1.3 4.7 Total 26.9 63.8 30.2 69.5 34.0 86.8 36.5 5.3 6.9 92.3 13.2 7.0 Notes: Pop = population in millions; # of HH = number of households in millions. 97 98 Pakistan: Household Use of Commercial Energy A3.2 Monthly expenditures per capita in 2001 rupees as a function of expenditure decile are shown in Table A3.2. They represent the same data as those in Table 2.3 but have been adjusted using the 2001 consumer price index (CPI) as the reference point. Nationally and in urban areas, the highest per capita expenditure was observed in 1999. For the bottom seven deciles in both urban and rural areas, the highest occurred in 1997. For the top three deciles, the highest expenditure per capita was in 1999 except for the seventh urban and top rural deciles, for which the highest was in 1997. Table A3.2: Monthly Expenditure per Capita in 2001 Rupees 1994 1997 1999 2001 Decile National Urban Rural National Urban Rural National Urban Rural National Urban Rural 1 415 421 414 435 447 433 402 406 401 402 409 401 2 527 527 527 556 559 556 528 534 527 516 518 515 3 602 602 602 634 637 634 609 610 609 589 587 590 4 675 674 675 710 709 710 690 689 690 659 660 659 5 747 747 747 783 781 783 768 771 768 730 729 730 6 831 830 831 864 863 865 854 855 854 813 813 813 7 935 939 933 968 971 967 965 965 965 917 918 917 8 1,078 1,080 1,076 1,115 1,119 1,113 1,117 1,118 1,116 1,058 1,057 1,059 9 1,330 1,341 1,324 1,350 1,352 1,349 1,390 1,401 1,384 1,294 1,298 1,293 10 2,654 2,797 2,505 2,492 2,562 2,413 2,754 3,113 2,352 2,413 2,735 2,069 Total 1,105 1,415 980 1,094 1,348 988 1,135 1,515 982 1,046 1,365 918 A3.3 Because the number of households is rising from year to year, electricity and natural gas connections can continue to expand and still show a drop in percentage coverage. Table A3.3 shows the number of households using the various energy sources, and Table A3.4 gives the additional number of households using each energy source from one survey year to the next. In absolute terms, there was an increase in the number of households using each energy source, with the exceptions of kerosene, for which there was a steady decline, and fuelwood between 1999 and 2001. Electricity and natural gas both registered the smallest increase between 1997 and 1999. As Table 2.4 shows, in percentage terms, electricity use showed a temporary drop in 1999 and remained essentially unchanged between 1997 and 2001. The number of LPG users fell in urban areas in 2001, but the decrease was much smaller than the increase in the number of new natural gas connections. Because natural gas is much cheaper than LPG on the basis of unit of usable energy delivered, it is likely that this indicates that some urban users switched from LPG to natural gas. The number of LPG-using households decreased more in urban areas than in rural areas, resulting in a net loss between 1999 and 2001 when the LPG market was increasingly deregulated and international prices of LPG rose. The government imposed an implicit price cap on LPG in 2001, resulting on occasion in supply shortage. Annex 3: Household Survey Findings, National Analysis 99 Table A3.3: Number of Households in Millions Using Different Energy Sources Area and Survey Year Biomass Wood Dung Agr Resid Electricity Kerosene Natural Gas LPG National 1994 11.0 8.9 4.0 3.0 9.6 9.1 2.1 0.6 1997 12.4 10.1 4.3 3.5 12.6 8.3 2.8 0.9 1999 13.6 11.1 5.4 3.6 13.1 8.1 3.1 1.5 2001 14.2 10.7 5.7 4.8 14.2 7.2 3.7 1.5 Urban 1994 1.4 1.3 0.4 0.1 3.8 1.4 2.1 0.3 1997 1.5 1.4 0.3 0.2 4.6 1.2 2.7 0.3 1999 1.6 1.4 0.5 0.2 4.8 1.2 2.9 0.5 2001 1.6 1.3 0.5 0.3 5.1 0.7 3.3 0.4 Rural 1994 9.6 7.6 3.7 2.8 5.8 7.7 0.1 0.3 1997 11.0 8.7 4.0 3.3 8.0 7.1 0.1 0.5 1999 12.1 9.8 5.0 3.4 8.3 6.9 0.2 1.0 2001 12.5 9.4 5.2 4.5 9.1 6.5 0.4 1.1 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. 100 Pakistan: Household Use of Commercial Energy Table A3.4: Additional Number of Households Using Different Energy Sources Area and Beginning and Natural End Years Biomass Wood Dung Agr Resid Electricity Kerosene Gas LPG National 1994­1997 1.4 1.2 0.3 0.5 2.9 -0.8 0.7 0.3 1997­1999 1.2 1.0 1.1 0.1 0.5 -0.2 0.3 0.7 1999­2001 0.5 -0.4 0.2 1.2 1.2 -0.9 0.6 0.0 1994­2001 3.1 1.8 1.6 1.8 4.6 -1.9 1.6 0.9 Urban 1994­1997 0.0 0.1 0.0 0.0 0.7 -0.1 0.6 0.1 1997­1999 0.1 0.0 0.1 0.0 0.2 0.0 0.2 0.2 1999­2001 0.1 0.0 0.0 0.1 0.3 -0.5 0.4 -0.1 1994­2001 0.2 0.0 0.1 0.1 1.2 -0.6 1.2 0.2 Rural 1994­1997 1.4 1.1 0.3 0.5 2.2 -0.6 0.1 0.2 1997­1999 1.1 1.0 1.0 0.1 0.3 -0.2 0.1 0.5 1999­2001 0.5 -0.4 0.2 1.1 0.9 -0.4 0.2 0.1 1994­2001 2.9 1.8 1.5 1.7 3.3 -1.2 0.4 0.8 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. A3.4 As discussed in chapter 2, the percentage of households using free biomass increased steadily from 1994 to 2001. Figure A3.1 and Figure A3.2 show the statistics for each expenditure decile in the four survey years for urban and rural households, respectively. The increase in the percentage of urban households among the bottom four deciles using free biomass is striking. Even the highest decile did not drop in its use of free biomass between 1994 and 2001. Annex 3: Household Survey Findings, National Analysis 101 Figure A3.1: Percentage of Urban Households Using Free Biomass 50 el 40 1994 ci de ni 30 1997 ds 20 1999 househol of % 10 2001 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A3.2: Percentage of Rural Households Using Free Biomass 100 el 80 1994 ci de ni 60 1997 ds 40 1999 househol of % 20 2001 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 102 Pakistan: Household Use of Commercial Energy A3.5 A breakdown of biomass into fuelwood, dung, and agricultural residues shows that, nationally, the percentage of households using free fuelwood remained unchanged between 1994 and 2001, although there were interim increases, particularly in 1999, as Figure A3.3 shows. A3.6 The percentage of households using free dung increased markedly between 1997 and 1999 among the bottom four deciles, while the percentage of households using free dung remained nearly constant between the second and ninth deciles. This is shown in Figure A3.4. As expected, nearly all agricultural residues consumed were obtained free by households. Figure A3.5 shows the historical evolution of household use of agricultural residues as a function of expenditure decile. There was little change between 1994 and 1999, and a marked increase in 2001. The percentage of households using agricultural residues more than doubled from the top to the bottom decile in 2001. Figure A3.3: Percentage of Households Using Free Fuelwood 60 50 el 1994 ci de 40 ni 1997 ds 30 1999 househol 20 of % 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Annex 3: Household Survey Findings, National Analysis 103 Figure A3.4: Percentage of Households Using Free Dung 50 el 40 1994 ci de ni 30 1997 ds 20 1999 househol of % 10 2001 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A3.5: Percentage of Households Using Agricultural Residues 50 el 40 1994 ci de ni 30 1997 ds 20 1999 househol of % 10 2001 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 104 Pakistan: Household Use of Commercial Energy A3.7 The proportion of households purchasing fuelwood declined between 1994 and 2001. Figure A3.6 and Figure A3.7 show the percentage of households buying fuelwood by decile in urban and rural areas, respectively. Nationally, the percentage fell from 27 percent in 1994 to 21 percent in 2001; this decline was largest for the bottom decile, and there was no change for the top decile. In urban areas, the proportion of households purchasing fuelwood fell in every decile, but the proportion for the top two deciles in rural areas increased. Figure A3.6: Percentage of Urban Households Buying Wood 70 60 el 1994 ci 50 de ni 1997 40 ds 30 1999 househol 20 of % 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile A3.8 The number of households in the top four energy-choice combinations is presented in Table 2.5 in chapter 2. Table A3.5 to Table A3.8 show energy-choice combinations by decile. In each table, the percentage of households in each decile that were consuming a given set of energy sources--for example, kerosene, biomass, and electricity--is shown for the top five energy-choice combinations. The percentage of all households for each combination is shown under "aggregate." In 2001, about one-third of all households were using only biomass and electricity, followed by nearly one-quarter that were using natural gas and electricity only. Annex 3: Household Survey Findings, National Analysis 105 Figure A3.7: Percentage of Rural Households Buying Wood 40 1994 30 cile de in 1997 20 1999 households of 10 % 2001 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Table A3.5: Percentage of Households for Top Five Energy-Choice Combinations by Decile, 1994 Expenditure Kerosene-biomass- Biomass- Biomass- Kerosene- Decile electricity kerosene electricity Gas-electricity electricity 1 29.8 39.5 18.8 2.7 0.8 2 32.3 35.7 19.4 4.2 2.1 3 30.4 34.8 21.3 4.8 1.3 4 33.6 32.6 18.1 7.3 2.5 5 35.2 31.4 18.2 6.4 1.4 6 29.8 26.0 18.4 14.0 2.1 7 29.1 30.7 18.0 12.6 2.3 8 29.0 26.2 15.6 18.4 2.7 9 30.0 21.5 14.0 18.9 5.3 10 20.4 14.8 11.5 36.6 4.4 Aggregate 29.3 27.9 16.8 14.6 2.7 106 Pakistan: Household Use of Commercial Energy Table A3.6: Percentage of Households for Top Five Energy-Choice Combinations by Decile, 1997 Expenditure Biomass- Kerosene-biomass- Biomass- Kerosene- Decile electricity electricity kerosene Gas-electricity electricity 1 29.8 27.2 32.4 3.7 1.0 2 29.6 33.2 25.4 6.3 1.1 3 27.3 30.7 26.0 8.9 0.7 4 29.5 29.2 23.6 10.2 1.5 5 31.7 26.2 21.7 12.1 2.0 6 27.7 28.4 21.9 14.0 2.2 7 28.7 28.6 19.0 13.6 2.1 8 27.8 26.1 16.7 19.2 2.2 9 23.9 22.9 15.3 25.2 2.7 10 17.3 17.0 9.3 40.2 3.5 Aggregate 26.7 26.2 20.0 17.3 2.1 Table A3.7: Percentage of Households for Top Five Energy-Choice Combinations by Decile, 1999 Expenditure Biomass- Kerosene-biomass- Biomass- Gas- Decile electricity electricity kerosene electricity Biomass 1 26.7 14.7 31.5 4.7 14.6 2 30.3 19.1 26.0 7.3 9.4 3 30.8 22.9 24.1 8.6 6.2 4 32.1 20.9 21.1 11.9 5.2 5 29.9 20.8 21.9 11.7 5.6 6 28.8 23.9 17.7 14.0 4.8 7 26.9 24.3 18.0 14.2 4.2 8 26.1 22.0 16.8 16.1 4.3 9 20.8 20.1 14.6 21.7 3.9 10 16.3 13.2 7.6 38.1 1.3 Aggregate 26.0 20.0 18.7 16.6 5.4 Annex 3: Household Survey Findings, National Analysis 107 Table A3.8: Percentage of Households for Top Five Energy-Choice Combinations by Decile, 2001 Expenditure Biomass- Gas- Biomass- Kerosene-biomass- Decile electricity electricity kerosene electricity Biomass 1 36.3 6.3 30.8 14.1 9.6 2 37.7 8.5 26.8 16.6 4.9 3 38.1 8.8 24.7 18.2 4.1 4 41.3 11.1 21.3 15.9 2.9 5 36.3 15.6 21.4 15.8 3.5 6 32.9 15.6 19.9 18.0 4.2 7 33.6 18.7 15.9 17.5 3.4 8 31.3 22.9 16.1 15.8 2.2 9 27.8 25.0 11.7 17.7 2.9 10 19.6 41.1 6.6 10.2 1.5 Aggregate 32.4 19.3 18.2 15.8 3.6 Annex 4 Household Survey Findings: Regional Analysis A4.9 This annex summarizes the analysis carried out for the four provinces in Pakistan: Punjab, Sindh, the Northwest Frontier Province (NWFP), and Balochistan. Compared to the analysis of the nationwide survey, analysis by province suffers from smaller sample sizes. For example, in the 2001­2002 PIHS, the total sample size was 16,000 but 2,000 in Balochistan. The manifestations of these limitations are noted in this annex. A brief description of findings from other areas, where data are available, is also given. Punjab A4.10 Punjab is the largest province in Pakistan, and expenditure per capita shows that the inhabitants were slightly better off than the national average (shown in Table 2.1). As in the rest of the provinces, the expenditure per capita of the top decile was markedly higher than those of lower deciles. Between 1994 and 2001, expenditures per capita declined in real terms, especially for the top decile. Household expenditures were lower than the national average in 1999 and 2001. Urban household expenditures declined in real terms between 1994 and 2001. A4.11 The distribution of individuals in nationally defined per capita expenditure deciles is shown in Table A4.2. The distribution of urban residents was close to the national average, but there was a higher concentration of rural households in upper deciles. The largest concentration of urban residents was in the top decile, and of rural residents in the ninth decile (against the bottom decile for the national statistics). Household sizes were smaller than the national average in both urban and rural areas. A4.12 The percentages of households using various sources of energy in Punjab are shown in Table A4.3. The uptake of dung, agricultural residues, and biomass was higher, and of natural gas and LPG lower, than the national average in each survey year. Fuelwood uptake was markedly lower than the national average in rural areas, especially in 2001. Kerosene and LPG uptake was lower in rural areas but higher in urban areas compared to the national average. Electricity uptake among rural households was somewhat higher than the national average in rural areas, but not enough to explain the lower uptake of kerosene in 1999 and 2001. Much higher uptake of dung and agricultural residues in rural areas seemed to compensate for lower use of fuelwood. 109 110 Pakistan: Household Use of Commercial Energy Table A4.1: Population Statistics in Punjab, by Survey Year Parameter 1994 1997 1999 2001 Total Population 52,400,000 57,500,000 64,300,000 70,100,000 Urban Population 14,500,000 16,500,000 18,600,000 20,200,000 Percent Urban 28 29 29 29 Rural Population 37,900,000 41,000,000 45,800,000 49,900,000 Percent Rural 72 71 71 71 Total Number of Households 8,300,000 9,400,000 9,900,000 10,700,000 Urban Households 2,300,000 2,600,000 2,800,000 3,000,000 Rural Households 6,000,000 6,800,000 7,100,000 7,700,000 Per Capita Expenditure 1 697 947 1,069 1,063 Urban per Capita Expenditure 1 865 1,132 1,417 1,295 Rural per Capita Expenditure 1 634 876 929 971 Household Expenditure 2 3,753 5,202 6,174 6,247 Urban Household Expenditure 2 4,634 6,359 7,950 7,468 Rural Household Expenditure 2 3,423 4,762 5,462 5,764 Adjusted per Capita Expenditure 3 1,147 1,127 1,151 1,063 Urban per Capita Expenditure 3 1,422 1,348 1,525 1,295 Rural per Capita Expenditure 3 1,043 1,043 1,000 971 Household Expenditure 3 6,173 6,196 6,647 6,247 Urban Household Expenditure 3 7,622 7,574 8,558 7,468 Rural Household Expenditure 3 5,630 5,671 5,880 5,764 1Nominal per capita expenditures in rupees per month, inclusive of imputed and cash outlays. 2Nominal total household expenditures in rupees per month, inclusive of imputed and cash outlays. 3Monthly expenditures adjusted for the CPI with 2001 as the base year. Annex 4: Household Survey Findings, Regional Analysis 111 Table A4.2: Population and Household Statistics as Function of per Capita Expenditure Decile in Punjab 1994 1997 1999 2001 Urban Rural Urban Rural Urban Rural Urban Average Rural Average Decile Pop Pop Pop Pop Pop Pop Pop # of HHs HH Size Pop # of HHs HH Size 1 0.8 4.7 0.9 4.3 1.3 5.0 1.3 0.1 9.0 5.1 0.6 8.4 2 0.9 4.1 1.1 4.1 1.5 4.9 1.5 0.2 8.2 4.8 0.6 7.9 3 1.0 3.8 1.2 4.4 1.4 4.9 1.2 0.2 8.1 5.0 0.7 7.6 4 1.1 3.6 1.4 4.1 1.4 4.9 1.4 0.2 7.8 5.0 0.7 7.3 5 1.3 3.7 1.5 4.1 1.5 4.6 1.7 0.2 7.7 5.2 0.7 7.0 6 1.5 3.4 1.6 4.0 1.7 4.5 1.9 0.3 7.1 4.7 0.7 6.5 7 1.6 4.0 1.6 4.4 1.8 4.6 2.2 0.3 7.0 5.2 0.9 6.1 8 1.6 3.7 2.1 4.4 1.8 4.5 2.5 0.4 6.6 5.1 0.9 5.9 9 2.0 3.7 2.2 4.1 2.4 4.3 2.5 0.4 6.1 5.5 1.0 5.4 10 2.7 3.1 3.1 3.2 3.8 3.4 3.8 0.8 4.9 4.3 0.9 4.6 Total 14.5 37.9 16.5 41.0 18.6 45.8 20.2 3.0 6.6 49.9 7.7 6.5 Notes: Pop = population in millions; # of HH = number of households in millions. Table A4.3: Percentage of Households in Punjab Using Different Energy Sources Area and Survey Year Biomass Wood Dung Agr Resid Electricity Kerosene Natural Gas LPG Punjab 1994 81 60 35 29 70 65 12 3.9 1997 80 59 34 30 77 52 14 3.9 1999 79 56 42 30 77 41 14 6.7 2001 78 48 38 40 79 30 18 6.2 Urban 1994 43 38 11 4.4 94 39 43 8.1 1997 36 33 10 4.6 96 32 48 7.6 1999 37 31 13 5.7 94 30 46 11.5 2001 34 26 12 8.2 96 13 56 8.6 Rural 1994 95 68 44 39 61 75 0.3 2.3 1997 97 69 44 40 70 60 1.3 2.5 1999 96 66 54 40 70 45 1.1 4.7 2001 95 56 49 52 72 37 2.5 5.2 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. 112 Pakistan: Household Use of Commercial Energy A4.13 In terms of numbers of households, those using biomass, agricultural residues, electricity, and natural gas steadily increased between 1994 and 2001 in the province. The largest decrease was in the number of kerosene consumers. Table A4.4 shows the results. The number of LPG users increased steadily in rural areas but fell slightly between 1999 and 2001 in urban areas. The decrease of 63,000 in the number of LPG-consuming urban households was much smaller than the increase of 400,000 in the number of natural-gas consuming households, indicating that most new natural gas users were not previously using LPG. Table A4.4: Number of Households in Punjab Using Different Energy Number of Households in Millions Area and Survey Year Biomass Wood Dung Agr Resid Electricity Kerosene Natural Gas LPG Punjab 1994 6.7 5.0 2.9 2.4 5.8 5.4 1.0 0.32 1997 7.5 5.6 3.2 2.8 7.2 4.9 1.3 0.36 1999 7.8 5.5 4.2 3.0 7.6 4.1 1.4 0.66 2001 8.4 5.1 4.1 4.3 8.5 3.2 1.9 0.66 Urban 1994 1.0 0.9 0.3 0.1 2.1 0.9 1.0 0.18 1997 0.9 0.9 0.3 0.1 2.5 0.8 1.2 0.20 1999 1.1 0.9 0.4 0.2 2.7 0.8 1.3 0.33 2001 1.0 0.8 0.4 0.2 2.9 0.4 1.7 0.26 Rural 1994 5.8 4.1 2.7 2.3 3.7 4.6 0.0 0.14 1997 6.6 4.7 3.0 2.7 4.8 4.1 0.1 0.17 1999 6.7 4.6 3.8 2.8 5.0 3.2 0.1 0.33 2001 7.3 4.3 3.7 4.0 5.6 2.8 0.2 0.40 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. A4.14 Table A4.5 shows the top four energy-choice combinations used by households. The ranking was similar to the national average. Annex 4: Household Survey Findings, Regional Analysis 113 Table A4.5: Number of Households in Punjab in the Top Four Energy-Choice Combinations Top Choice Second Choice Third Choice Fourth Choice Punjab 1994 Kero-bio-elec Bio-kero Bio-elec Gas-elec # of Households 2,700,000 2,200,000 1,600,000 940,000 1997 Bio-elec Kero-bio-elec Bio-kero Gas-elec # of Households 2,800,000 2,500,000 1,900,000 1,300,000 1999 Bio-elec Kero-bio-elec Bio-kero Gas-elec # of Households 3,200,000 2,100,000 1,500,000 1,300,000 2001 Bio-elec Gas-elec Bio-kero Kero-bio-elec # of Households 4,500,000 1,800,000 1,600,000 1,300,000 Urban 1994 Gas-elec Kero-bio-elec Bio-elec Kero-elec # of Households 930,000 510,000 290,000 160,000 1997 Gas-elec Kero-bio-elec Bio-elec Kero-elec # of Households 1,200,000 470,000 350,000 200,000 1999 Gas-elec Kero-bio-elec Bio-elec LPG-elec # of Households 1,300,000 460,000 360,000 190,000 2001 Gas-elec Bio-elec Kero-bio-elec LPG-elec # of Households 1,700,000 640,000 200,000 130,000 Rural 1994 Kero-bio-elec Bio-kero Bio-elec Kero # of Households 2,200,000 2,100,000 1,300,000 100,000 1997 Bio-elec Kero-bio-elec Bio-kero Biomass # of Households 2,400,000 2,000,000 1,900,000 85,000 1999 Bio-elec Kero-bio-elec Bio-kero Biomass # of Households 2,800,000 1,600,000 1,400,000 620,000 2001 Bio-elec Bio-kero Kero-bio-elec Biomass # of Households 3,800,000 1,600,000 1,100,000 460,000 A4.15 The historical progression of the uptake of different energy sources is shown in Figure A4.1 to Figure A4.4. Fuelwood showed an unusual pattern of increasing uptake with increasing expenditure for the bottom six deciles in 2001. 114 Pakistan: Household Use of Commercial Energy Figure A4.1: Natural Gas, LPG, and Electricity Uptake in Punjab 100 90 Natural gas 1994 80 cile LPG 1994 de 70 in 60 Electricity 1994 50 Natural gas 2001 40 households 30 LPG 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.2: Wood, Biomass, and Kerosene Uptake in Punjab 100 90 Kerosene 1994 80 cile Wood 1994 de 70 in 60 Total biomass 1994 50 Kerosene 2001 40 households Wood 2001 30 of % 20 Biomass 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Annex 4: Household Survey Findings, Regional Analysis 115 Figure A4.3: Natural Gas, LPG, and Electricity Uptake in Urban Punjab 100 90 Natural gas 1994 80 cile LPG 1994 de 70 in 60 Electricity 1994 50 Natural gas 2001 40 households 30 LPG 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.4: LPG, Kerosene, and Electricity Uptake in Rural Punjab 100 90 LPG 1994 80 cile Kerosene 1994 de 70 in 60 Electricity 1994 50 LPG 2001 40 households 30 Kerosene 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 116 Pakistan: Household Use of Commercial Energy A4.16 Table A4.6 shows how much LPG, kerosene, and fuelwood were consumed by households in a month in Punjab. The sudden drop in the amount of LPG consumed by purchasers in 2001 mirrors a similar trend in the national statistics. Among the purchasers, LPG consumption in 2001 was higher than the national average, as was kerosene consumption in urban areas, whereas fuelwood consumption was lower. Prices paid for kerosene were broadly consistent with pan-territorial pricing. The price of LPG in 1999 was markedly higher in Punjab than the national average. Table A4.6: Monthly Household Purchase or Consumption in Punjab LPG Liters Rs/Liter Kg Wood, Area and Cylinder Kerosene Kerosene all Kg Wood Kg Wood Survey Year Buyers Rs/Cylinder Buyers Buyers Households Users Buyers Punjab 1994 1.2 109 4.3 7.0 63 106 85 1997 1.3 185 3.8 10.5 74 124 93 1999 1.7 183 4.0 11.8 53 94 93 2001 0.8 387 3.0 18.7 49 103 98 Urban 1994 1.2 153 8.0 6.8 37 95 89 1997 1.4 246 8.5 10.4 36 109 105 1999 1.8 187 8.7 11.7 32 104 103 2001 0.8 373 7.1 18.5 25 96 94 Rural 1994 1.3 146 3.6 7.1 73 108 82 1997 1.2 218 2.9 10.6 88 126 87 1999 1.6 180 2.7 11.9 61 92 89 2001 0.8 397 2.4 18.8 58 104 100 Notes: LPG cylinder buyers = number of LPG cylinders purchased per month; Rs/cylinder = nominal rupees paid per cylinder; all households = averaged across all households; users = averaged across all users; buyers = averaged across purchasers only. A4.17 Table A4.7 and Table A4.8 show the expenditure statistics averaged across purchasers only. By considering only purchasers, the effect of varying uptake is factored out, so that only the effects of energy prices and amounts consumed are reflected. With the exception of biomass, households in Punjab devoted more of their total expenditures toward purchasing energy in 1999 and 2001 than did the nation as a whole. In rupees, they also spent more on electricity, natural gas, and LPG. Because electricity and natural gas tariffs were uniform across the country, if these findings are correct, an immediate implication is that households in Punjab consumed more electricity and natural gas. Expenditures in rupees on electricity, natural gas, kerosene, and LPG increased faster than the CPI. The greatest increase was observed with electricity--twice the increase in the CPI--followed by LPG, natural gas, and kerosene. The rate of Annex 4: Household Survey Findings, Regional Analysis 117 increase in expenditures in rupees on natural gas was about the same as the national average, and somewhat less than the rate of tariff increases; this suggests that consumption, if anything, declined per household. Table A4.7: Monthly Expenditure on Purchased Energy in Punjab Nominal Rupees Averaged across Purchasers Area and Survey Year Electricity Natural Gas Kerosene LPG Wood Punjab 1994 104 134 30 150 95 1997 177 183 40 233 135 1999 282 239 47 280 142 2001 344 257 56 302 155 Urban 1994 147 134 54 153 106 1997 231 189 88 246 149 1999 388 241 102 304 163 2001 460 258 131 305 153 Rural 1994 80 103 25 146 90 1997 148 83 30 218 128 1999 227 195 33 257 134 2001 283 243 46 300 156 118 Pakistan: Household Use of Commercial Energy Table A4.8: Purchased Energy in Punjab In Percentage of Total Household Spending, Averaged across Purchasers Area and Survey Year Electricity Natural Gas Kerosene LPG Biomass Total Energy Punjab 1994 2.6 2.4 1.0 3.4 3.5 4.0 1997 3.4 2.6 1.0 3.8 3.4 4.6 1999 4.5 3.0 1.0 3.7 3.3 5.9 2001 5.5 3.5 1.2 3.9 3.4 6.7 Urban 1994 3.0 2.4 1.5 3.5 3.5 5.9 1997 3.7 2.7 1.9 3.7 3.7 6.8 1999 4.8 3.0 1.9 3.5 3.6 7.9 2001 6.0 3.4 2.3 4.0 3.3 9.2 Rural 1994 2.4 1.2 0.9 3.4 3.4 3.3 1997 3.2 1.6 0.8 3.8 3.3 3.8 1999 4.3 3.4 0.8 3.9 3.2 5.0 2001 5.2 4.4 1.0 3.8 3.4 5.7 A4.18 Table A4.9 shows monthly cash expenditures on electricity, natural gas, kerosene, LPG, and all forms of energy (including purchased biomass, coal, and charcoal) averaged across all households. Increasing tariffs as well as increasing uptake contributed to sharp rises in amounts spent on electricity, natural gas, and LPG. The greatest deviation from the national average lies with electricity, on which more was spent in Punjab than nationally in 1999 and 2001. Kerosene registered a decline. In real terms, the amount of rupees spent on electricity increased by 125 percent between 1994 and 2001. This was followed by LPG at 93 percent and natural gas at 74 percent. The increase in expenditure was greater than the national average for electricity and natural gas. Annex 4: Household Survey Findings, Regional Analysis 119 Table A4.9: Nominal Monthly Household Expenditures on Purchased Energy in Punjab In Rupees, Averaged across all Households Area and Survey Year Electricity Natural Gas Kerosene LPG OGE Non-OGE % OGE Punjab 1994 72 16 20 6 113 33 78 1997 134 25 21 9 190 39 83 1999 214 32 19 18 284 47 86 2001 267 45 17 18 347 46 88 Urban 1994 135 57 21 12 225 40 85 1997 220 90 28 19 356 49 88 1999 356 108 30 35 529 51 91 2001 434 143 17 26 619 43 94 Rural 1994 49 0.2 19 3 71 30 71 1997 102 1 18 5 127 35 78 1999 158 2 15 12 186 46 80 2001 201 6 17 15 239 47 83 Note: OGE = oil products, gas, and electricity; non-OGE = biomass, coal, and charcoal; % OGE = percentage spent on oil products, gas, and electricity out of total expenditure on energy purchase. A4.19 Table A4.10 shows cash expenditures on various energy sources as a percentage share of the total household expenditure, averaged across all households. The trends shown mirror those discussed for Table A4.9. 120 Pakistan: Household Use of Commercial Energy Table A4.10: Purchased Energy as Share of Household Expenditures in Punjab In Percentage of Total Spending, Averaged across all Households Area and Survey Year Electricity Natural Gas Kerosene LPG Biomass Total Energy Punjab 1994 1.8 0.3 0.6 0.1 1.1 4.0 1997 2.6 0.4 0.5 0.1 0.9 4.5 1999 3.4 0.4 0.4 0.2 0.9 5.5 2001 4.3 0.6 0.4 0.2 0.9 6.4 Urban 1994 2.7 1.0 0.6 0.3 1.3 5.9 1997 3.5 1.3 0.6 0.3 1.1 6.8 1999 4.4 1.3 0.5 0.4 1.0 7.7 2001 5.7 1.9 0.3 0.3 0.8 9.1 Rural 1994 1.5 0.0 0.7 0.1 1.0 3.3 1997 2.2 0.0 0.5 0.1 0.8 3.7 1999 3.0 0.0 0.3 0.2 0.9 4.5 2001 3.7 0.1 0.4 0.2 0.9 5.3 A4.20 Figure A4.5 to Figure A4.8 show expenditures on energy, natural gas, and electricity as percentages of total household expenditures. Figure A4.5 shows both cash expenditures and total imputed and cash values. The patterns observed here are similar to those seen nationally, except the percentage figures are higher for electricity. Annex 4: Household Survey Findings, Regional Analysis 121 Figure A4.5: Energy as Share of Household Expenditures in Punjab 11 10 Cash 1994 9 diture Cash 1997 8 7 Cash 1999 expen 6 Cash 2001 5 Total 1994 4 Total 1997 household of 3 Total 1999 % 2 Total 2001 1 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.6: Expenditure on Natural Gas in Urban Punjab In Percentage of Total Household Spending, Averaged across all Households 3.0 2.5 1994 diture 2.0 expen 1997 1.5 1999 household 1.0 of % 2001 0.5 0.0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 122 Pakistan: Household Use of Commercial Energy Figure A4.7: Expenditure on Electricity in Urban Punjab In Percentage of Total Household Spending, Averaged across all Households 7 6 1994 diture 5 expen 1997 4 3 1999 household 2 of % 2001 1 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.8: Expenditure on Electricity in Rural Punjab In Percentage of Total Household Spending, Averaged across all Households 4.0 3.5 1994 diture 3.0 2.5 expen 1997 2.0 1999 1.5 household of 1.0 % 2001 0.5 0.0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Annex 4: Household Survey Findings, Regional Analysis 123 Sindh A4.21 Sindh is the second largest province in Pakistan and has the highest percentage of urban residents in the country. Expenditures per capita show that urban inhabitants in Sindh were better off than the national average, but rural inhabitants were poorer (Table A4.11). Rural expenditure per capita fell steadily from 1997 to 2001 in real terms. Because of increasing household size, rural household expenditures rose between 1997 and 2001. The observed increase in household size, however, could be an artifact of survey data collection. The fall in the rural population between 1994 and 1997 appears to be a measurement error rather than a genuine drop, especially given the large reported increase between 1997 and 1999. As with Punjab, the expenditure per capita of the top decile was markedly higher than those of lower deciles. Between 1994 and 2001, the expenditure per capita declined slightly in real terms but increased for the top decile. Table A4.11: Population Statistics in Sindh, by Survey Year Parameter 1994 1997 1999 2001 Total Population 21,800,000 20,500,000 27,200,000 31,900,000 Urban Population 10,100,000 10,500,000 11,800,000 12,400,000 Percent Urban 46 51 43 39 Rural Population 11,700,000 10,000,000 15,400,000 19,500,000 Percent Rural 54 49 57 61 Total Number of Households 3,400,000 3,500,000 4,000,000 4,200,000 Number of Urban Households 1,500,000 1,700,000 1,800,000 1,800,000 Number of Rural Households 1,900,000 1,800,000 2,200,000 2,500,000 Per Capita Expenditure 1 709 998 1,138 1,121 Urban per Capita Expenditure 1 883 1,175 1,438 1,546 Rural per Capita Expenditure 1 575 836 898 819 Household Expenditure 2 3,938 5,224 6,541 7,094 Urban Household Expenditure 2 5,019 6,430 7,894 8,960 Rural Household Expenditure 2 3,102 4,114 5,457 5,769 Adjusted per Capita Expenditure 3 1,166 1,189 1,225 1,121 Urban per Capita Expenditure 3 1,452 1,399 1,548 1,546 Rural per Capita Expenditure 3 945 995 966 819 Household Expenditure 3 6,478 6,222 7,042 7,094 Urban Household Expenditure 3 8,254 7,658 8,498 8,960 Rural Household Expenditure 3 5,102 4,899 5,875 5,769 1Nominal per capita expenditures in rupees per month, inclusive of imputed and cash outlays. 2Nominal total household expenditures in rupees per month, inclusive of imputed and cash outlays. 3Monthly expenditures adjusted for the CPI with 2001 as the base year. 124 Pakistan: Household Use of Commercial Energy A4.22 The distribution of individuals in nationally defined per capita expenditure deciles is shown in Table A4.12. The distribution of urban residents was more skewed toward upper deciles than the national average, but rural residents were markedly concentrated in lower deciles. The largest concentration of urban residents was in the top decile; rural residents were concentrated in the bottom decile. Household sizes were larger than the national average in both urban and rural areas except for the top two deciles. Table A4.12: Population and Household Statistics as Function of per Capita Expenditure Decile in Sindh 1994 1997 1999 2001 Urban Rural Urban Rural Urban Rural Urban # of Average Rural Average Decile Pop Pop Pop Pop Pop Pop Pop HHs HH Size Pop # of HHs HH Size 1 0.3 1.2 0.3 0.7 0.5 1.9 0.6 0.0 11.2 3.6 0.3 10.6 2 0.5 1.3 0.7 0.9 0.7 1.7 0.8 0.1 10.0 2.6 0.3 9.2 3 0.6 1.5 0.7 0.8 0.7 1.8 0.8 0.1 9.8 2.3 0.3 8.9 4 0.8 1.4 0.8 1.4 1.0 1.8 0.9 0.1 8.9 2.1 0.2 8.7 5 0.8 1.4 0.9 1.3 1.0 1.7 1.2 0.1 9.0 1.9 0.2 7.9 6 1.1 1.2 1.1 1.3 1.2 1.6 1.2 0.1 8.0 2.2 0.3 7.6 7 1.1 1.1 1.1 1.2 1.3 1.5 1.4 0.2 8.0 1.6 0.2 7.1 8 1.4 1.1 1.2 1.1 1.4 1.4 1.4 0.2 7.1 1.3 0.2 6.2 9 1.4 0.9 1.6 0.8 1.7 1.2 1.7 0.3 6.1 1.2 0.2 5.4 10 2.0 0.5 2.2 0.6 2.4 0.8 2.5 0.5 4.8 0.6 0.2 4.1 Total 10.1 11.7 10.5 10.0 11.8 15.4 12.4 1.8 7.1 19.5 2.5 7.9 Notes: Pop = population in millions; # of HH = number of households in millions. A4.23 Table A4.13 and Table A4.14 show the percentages and numbers, respectively, of households in Sindh using various forms of energy. The uptake of all forms of biomass was markedly lower in urban areas. In rural areas, the uptake of fuelwood was considerably higher than nationally, but that of agricultural residues was an order of magnitude smaller. Averaged across the province, the uptake of every form of biomass was lower than nationally. The electrification rate was considerably lower in rural areas than the national average. Natural gas uptake was much higher than the national average; not surprisingly, the uptake of LPG--which is a substitute fuel for natural gas--was correspondingly lower, as was the uptake of kerosene, in urban areas. The numbers of households using electricity and natural gas increased steadily between 1994 and 2001, as did those using fuelwood, dung, biomass, and kerosene between 1997 and 2001, in the province. Annex 4: Household Survey Findings, Regional Analysis 125 Table A4.13: Percentage of Households in Sindh Using Different Energy Sources Area and Survey Year Biomass Wood Dung Agr Resid Electricity Kerosene Natural Gas LPG Sindh 1994 63 59 19 1.7 68 48 30 0.9 1997 60 54 16 4.4 81 31 38 1.3 1999 59 56 14 4.9 70 33 36 2.2 2001 63 61 20 1.8 74 37 36 1.1 Urban 1994 21 19 5.5 0.5 96 22 68 1.8 1997 18 18 3.1 0.1 98 11 77 2.6 1999 16 14 3.0 0.6 95 10 76 3.9 2001 18 17 3.3 0.1 96 8 78 1.3 Rural 1994 96 90 29 2.6 46 69 0.9 0.2 1997 98 88 28 8.4 65 49 1.6 0.2 1999 94 90 23 8.4 51 52 3.4 0.9 2001 94 92 32 3.1 58 58 5.7 0.9 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. 126 Pakistan: Household Use of Commercial Energy Table A4.14: Number of Households in Sindh Using Different Energy Sources Number of Households in Millions Area and Survey Year Biomass Wood Dung Agr Resid Electricity Kerosene Natural Gas LPG Sindh 1994 2.1 2.0 0.6 0.1 2.3 1.6 1.0 0.03 1997 2.1 1.9 0.6 0.2 2.8 1.1 1.3 0.05 1999 2.4 2.3 0.6 0.2 2.8 1.3 1.4 0.09 2001 2.7 2.6 0.8 0.1 3.1 1.6 1.5 0.05 Urban 1994 0.3 0.3 0.1 0.01 1.4 0.3 1.0 0.03 1997 0.3 0.3 0.1 0.00 1.6 0.2 1.3 0.04 1999 0.3 0.3 0.1 0.01 1.7 0.2 1.4 0.07 2001 0.3 0.3 0.1 0.00 1.7 0.1 1.4 0.02 Rural 1994 1.8 1.7 0.6 0.05 0.9 1.3 0.02 0.00 1997 1.8 1.6 0.5 0.2 1.2 0.9 0.03 0.00 1999 2.1 2.0 0.5 0.2 1.1 1.2 0.08 0.02 2001 2.3 2.3 0.8 0.1 1.4 1.4 0.14 0.02 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. A4.24 The top four energy-choice combinations are shown in Table A4.15. Consistent with the high uptake of natural gas and a larger urban population, the leading combination is the use of only natural gas and electricity province-wide. Consistent with a relatively low rate of electrification, the leading combination among rural households was the use of only biomass and kerosene and without use of electricity in three surveys out of four. Annex 4: Household Survey Findings, Regional Analysis 127 Table A4.15: Number of Households in Sindh in the Top Four Energy-Choice Combinations Top Choice Second Choice Third Choice Fourth Choice Sindh 1994 Gas-elec Bio kero Bio-elec Kero-bio-elec # of Households 1,000,000 1,000,000 640,000 470,000 1997 Gas-elec Bio-elec Bio-kero Kero-bio-elec # of Households 1,300,000 1,000,000 640,000 400,000 1999 Gas-elec Bio-elec Bio-kero Kero-bio-elec # of Households 1,400,000 900,000 900,000 340,000 2001 Gas-elec Bio-elec Bio-kero Kero-bio-elec # of Households 1,500,000 1,000,000 950,000 550,000 Urban 1994 Gas-elec Kero-bio-elec Bio-elec Kero-elec # of Households 986,473 160,000 120,000 100,000 1997 Gas-elec Bio-elec Kero-bio-elec LPG-elec # of Households 1,277,327 140,000 130,000 40,000 1999 Gas-elec Bio-elec Kero-bio-elec LPG-elec # of Households 1,336,519 140,000 80,000 60,000 2001 Gas-elec Bio-elec Kero-bio-elec Bio-kero # of Households 1,361,303 190,000 70,000 30,000 Rural 1994 Bio-kero Bio-elec Kero-bio-elec Kero # of Households 950,000 530,000 300,000 50,000 1997 Bio-elec Bio-kero Kero-bio-elec Gas-elec # of Households 860,000 620,000 270,000 30,000 1999 Bio-kero Bio-elec Kero-bio-elec Biomass # of Households 860,000 760,000 260,000 190,000 2001 Bio-kero Bio-elec Kero-bio-elec Gas-elec # of Households 920,000 800,000 470,000 120,000 A4.25 The historical progression of different forms of energy as a function of per capita expenditure is illustrated in Figure A4.9 to Figure A4.12. The dependence of electricity uptake on per capita expenditure was stronger than the national average. The stronger dependence was also observed with natural gas, although this is in part because of greater penetration of gas in the province. The uptake of both fuelwood and total biomass was considerably lower among the upper deciles than nationally, but that of fuelwood was much higher among the lower deciles. 128 Pakistan: Household Use of Commercial Energy Figure A4.9: Natural Gas, LPG, and Electricity Uptake in Sindh 100 90 Natural gas 1994 80 cile de 70 LPG 1994 in 60 Electricity 1994 50 Natural gas 2001 40 households 30 LPG 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.10: Wood, Biomass, and Kerosene Uptake in Sindh 100 90 Kerosene 1994 80 cile Wood 1994 de 70 in 60 Total biomass 1994 50 Kerosene 2001 40 households Wood 2001 30 of % 20 Biomass 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Annex 4: Household Survey Findings, Regional Analysis 129 Figure A4.11: Natural Gas, LPG, and Electricity Uptake in Urban Sindh 100 90 Natural gas 1994 80 70 LPG 1994 decile in 60 Electricity 1994 50 Natural gas 2001 40 ouseholdsh 30 LPG 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.12: LPG, Kerosene, and Electricity Uptake in Rural Sindh 100 90 LPG 1994 80 cile de 70 Kerosene 1994 in 60 Electricity 1994 50 LPG 2001 40 households 30 Kerosene 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 130 Pakistan: Household Use of Commercial Energy A4.26 Table A4.16 shows how much LPG, kerosene, and fuelwood households consume in a month in Sindh. There was much greater fuelwood consumption in Sindh across both urban and rural areas. The prices of LPG calculated from the data in the 1998­1999 PIHS may strongly suggest data problems. Fuelwood consumption exhibited a large increase between 1999 and 2001. This may represent measurement errors or sampling bias; only 400 households out of a total sample of 3,700 purchased fuelwood. Table A4.16: Monthly Household Purchase or Consumption in Sindh LPG Liters Rs/Liter Kg Wood, Area and Cylinder Kerosene Kerosene all Kg Wood Kg Wood Survey Year Buyers Rs/Cylinder Buyers Buyers Households Users Buyers Sindh 1994 1.0 114 4.9 7.5 59 99 88 1997 1.7 170 3.6 11.3 67 123 95 1999 2.1 129 3.8 14.2 69 122 99 2001 0.6 383 3.0 19.6 117 191 150 Urban 1994 1.0 134 11.9 6.9 18 95 92 1997 1.7 170 7.8 9.8 20 111 104 1999 1.7 137 7.8 13.3 14 96 95 2001 0.8 354 5.1 19.4 28 161 141 Rural 1994 0.6 128 3.2 8.0 90 100 84 1997 1.8 162 2.7 12.3 110 126 87 1999 3.2 100 3.1 14.5 113 125 102 2001 0.5 413 2.8 19.6 180 195 157 Notes: LPG cylinder buyers = number of LPG cylinders purchased per month; Rs/cylinder = nominal rupees paid per cylinder; all households = averaged across all households; users = averaged across all users; buyers = averaged across purchasers only. A4.27 Table A4.17 and Table A4.18 summarize expenditure statistics averaged over purchasers. These statistics factor out the impact of varying uptake rates. Expenditures in rupees on electricity and natural gas were lower than the national averages, suggesting that households in Sindh consumed less. Expenditures on kerosene and LPG were essentially the same. Expenditures in rupees on electricity, natural gas, LPG, and fuelwood rose faster than the CPI in 1994­2001, with the largest increase represented by electricity in rural areas (more than twice the CPI increase). The expenditures on kerosene fell in urban areas and increased in rural areas in real terms during the same period. Expenditures on electricity and natural gas made up a smaller percentage of total household spending than the national average. Annex 4: Household Survey Findings, Regional Analysis 131 Table A4.17: Monthly Expenditure on Purchased Energy in Sindh Nominal Rupees Averaged across Purchasers Area and Survey Year Electricity Natural Gas Kerosene LPG Wood Sindh 1994 119 93 37 133 88 1997 161 120 40 291 113 1999 233 155 53 246 134 2001 305 204 59 236 180 Urban 1994 159 93 82 134 94 1997 214 121 76 291 114 1999 278 154 104 233 150 2001 400 206 99 272 191 Rural 1994 55 74 26 128 82 1997 88 115 33 288 111 1999 168 181 45 291 122 2001 193 180 55 197 172 132 Pakistan: Household Use of Commercial Energy Table A4.18: Purchased Energy in Sindh In Percentage of Total Household Spending, Averaged across Purchasers Area and Survey Year Electricity Natural Gas Kerosene LPG Biomass Total Energy Sindh 1994 2.4 1.6 1.2 2.7 2.7 3.2 1997 2.7 1.7 1.0 4.4 2.6 3.6 1999 3.0 1.8 1.1 3.1 2.3 3.7 2001 3.6 2.2 1.0 2.8 3.0 4.3 Urban 1994 2.8 1.6 2.1 2.8 2.8 4.8 1997 3.0 1.7 1.7 4.5 2.6 4.9 1999 3.1 1.8 2.1 3.2 2.7 5.0 2001 3.9 2.2 1.7 3.5 3.5 6.0 Rural 1994 1.8 1.7 1.0 1.6 2.6 1.9 1997 2.2 2.4 0.9 3.0 2.6 2.4 1999 2.9 2.4 1.0 2.8 2.0 2.5 2001 3.3 2.6 0.9 2.0 2.7 3.0 A4.28 Table A4.19 shows cash expenditures on various energy sources, averaged across all households. Consistent with the rate of uptake, expenditures on electricity in rural areas were much lower and expenditures on natural gas in urban areas were higher than the national average. Expenditures on LPG and biomass (indicated by non-OGE) were much lower in both urban and rural areas. Expenditures on kerosene in rural areas were higher in 1999 and 2001; this is consistent with the lower rate of electrification, since kerosene is often used for lighting in the absence of electricity. Annex 4: Household Survey Findings, Regional Analysis 133 Table A4.19: Nominal Monthly Household Expenditures on Purchased Energy in Sindh In Rupees, Averaged across all Households Area and Survey Year Electricity Natural Gas Kerosene LPG OGE Non-OGE % OGE Sindh 1994 80 28 18 1 126 14 90 1997 127 45 13 4 189 18 91 1999 160 54 18 6 238 16 94 2001 219 72 22 2 315 22 93 Urban 1994 150 63 18 2 233 19 93 1997 205 93 9 7 313 17 95 1999 255 115 10 9 389 18 96 2001 375 159 8 3 546 24 96 Rural 1994 25 0.6 18 0.2 44 11 80 1997 56 2 16 1 74 19 79 1999 84 6 24 3 116 15 89 2001 108 10 32 1 151 21 88 Note: OGE = oil products, gas, and electricity; non-OGE = biomass, coal, and charcoal; % OGE = percentage spent on oil products, gas, and electricity out of total expenditure on energy purchase. A4.29 Table A4.20 shows expenditures on various energy sources as a percentage share of total household expenditure, averaged across all households. Among urban households, the percentage spent on electricity in 1994 was the national average, but by 2001 it was markedly lower. Although the uptake rate of natural gas was higher, the percentage of expenditures spent on natural gas averaged across all urban households was the same as the national average. The percentage spent on biomass was less than half the national average. 134 Pakistan: Household Use of Commercial Energy Table A4.20: Purchased Energy as Share of Household Expenditures in Sindh In Percentage of Total Spending, Averaged across all Households Area and Survey Year Electricity Natural Gas Kerosene LPG Biomass Total Energy Sindh 1994 1.6 0.5 0.6 0.0 0.4 3.1 1997 2.1 0.7 0.3 0.1 0.4 3.6 1999 2.1 0.6 0.4 0.1 0.3 3.4 2001 2.6 0.8 0.4 0.0 0.4 4.1 Urban 1994 2.6 1.1 0.4 0.1 0.5 4.8 1997 2.9 1.3 0.2 0.1 0.4 4.9 1999 2.8 1.4 0.2 0.1 0.3 4.9 2001 3.6 1.7 0.1 0.0 0.4 5.9 Rural 1994 0.8 0.0 0.7 0.0 0.3 1.9 1997 1.4 0.0 0.4 0.0 0.5 2.4 1999 1.5 0.1 0.5 0.0 0.3 2.3 2001 1.8 0.1 0.5 0.0 0.3 2.9 A4.30 Figure A4.13 to Figure A4.16 show the expenditures on energy, natural gas, and electricity as percentages of total household expenditure for each expenditure decile. The percentages on total energy expenditures, including the imputed values of cash-free energy, were considerably lower than the national average. Annex 4: Household Survey Findings, Regional Analysis 135 Figure A4.13: Energy as Share of Household Expenditures in Sindh 8 7 Cash 1994 diture 6 Cash 1997 Cash 1999 5 expen Cash 2001 4 Total 1994 3 Total 1997 household of 2 Total 1999 % Total 2001 1 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.14: Expenditure on Natural Gas in Urban Sindh In Percentage of Total Household Spending, Averaged across all Households 3.0 2.5 1994 diture 2.0 expen 1997 1.5 1999 household 1.0 of % 2001 0.5 0.0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 136 Pakistan: Household Use of Commercial Energy Figure A4.15: Expenditure on Electricity in Urban Sindh In Percentage of Total Household Spending, Averaged across all Households 6 5 1994 diture 4 expen 1997 3 1999 household 2 of % 2001 1 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.16: Expenditure on Electricity in Rural Sindh In Percentage of Total Household Spending, Averaged across all Households 3.0 2.5 1994 diture 2.0 expen 1997 1.5 1999 household 1.0 of % 2001 0.5 0.0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Annex 4: Household Survey Findings, Regional Analysis 137 Northwest Frontier Province A4.31 The NWFP is the third largest province in Pakistan, and more rural than Punjab or Sindh. Expenditures per capita were lower than the national averages in both urban and rural areas for every survey year (Table A4.21). Household expenditures were also lower, primarily as a result of urban household expenditures being lower (except in1999). Rural household expenditures were higher except in 1997. The large increase in the rural population between 1994 and 1997, followed by a fall in 1999, could be an artifact of survey data collection. In real terms, expenditures per capita and household expenditures fell between 1999 and 2001 in urban and rural areas. Expenditure per capita averaged across the province and among urban residents fell between 1994 and 2001. Table A4.21: Population Statistics in NWFP, by Survey Year Parameter 1994 1997 1999 2001 Total Population 12,300,000 16,500,000 16,200,000 17,500,000 Urban Population 1,800,000 2,300,000 2,400,000 2,600,000 Percent Urban 14 14 15 15 Rural Population 10,600,000 14,200,000 13,800,000 14,900,000 Percent Rural 86 86 85 85 Total Number of Households 1,700,000 2,300,000 2,100,000 2,300,000 Number of Urban Households 260,000 340,000 310,000 340,000 Number of Rural Households 1,500,000 2,000,000 1,800,000 1,900,000 Per Capita Expenditure 1 541 734 881 879 Urban per Capita Expenditure 1 745 991 1,266 1,136 Rural per Capita Expenditure 1 504 690 813 834 Household Expenditure 2 3,490 4,711 6,123 6,217 Urban Household Expenditure 2 4,471 5,697 8,166 7,605 Rural Household Expenditure 2 3,316 4,542 5,762 5,974 Adjusted per Capita Expenditure 3 889 874 949 879 Urban per Capita Expenditure 3 1,225 1,180 1,363 1,136 Rural per Capita Expenditure 3 830 822 876 834 Household Expenditure 3 5,740 5,611 6,592 6,217 Urban Household Eexpenditure 3 7,354 6,785 8,790 7,605 Rural Household Expenditure 3 5,453 5,410 6,203 5,974 1Nominal per capita expenditures in rupees per month, inclusive of imputed and cash outlays. 2Nominal total household expenditures in rupees per month, inclusive of imputed and cash outlays. 3Monthly expenditures adjusted for the CPI with 2001 as the base year. A4.32 The number of people in each decile, split into urban and rural areas, is shown in Table A4.22. Compared to the national statistics, both urban and rural inhabitants were skewed toward lower deciles. Household sizes were larger. 138 Pakistan: Household Use of Commercial Energy Table A4.22: Population and Household Statistics as Function of per Capita Expenditure Decile in NWFP 1994 1997 1999 2001 Urban Rural Urban Rural Urban Rural Urban # of Average Rural # of Average Decile Pop Pop Pop Pop Pop Pop Pop HHs HH Size Pop HHs HH Size 1 0.15 1.4 0.23 2.9 0.20 2.3 0.17 0.02 9.9 1.5 0.16 9.6 2 0.17 1.5 0.21 2.4 0.18 1.9 0.22 0.03 8.5 2.1 0.23 9.1 3 0.15 1.6 0.22 2.1 0.25 1.9 0.28 0.03 9.5 2.3 0.26 8.6 4 0.16 1.3 0.27 1.5 0.22 1.4 0.24 0.03 9.4 2.1 0.25 8.4 5 0.19 1.3 0.23 1.4 0.21 1.5 0.24 0.03 7.8 1.5 0.21 7.3 6 0.15 1.1 0.21 1.2 0.23 1.3 0.21 0.03 7.6 1.5 0.21 7.0 7 0.13 0.8 0.18 1.1 0.28 1.2 0.21 0.03 7.5 1.1 0.17 6.7 8 0.19 0.7 0.19 0.6 0.19 1.0 0.31 0.04 7.3 1.2 0.18 6.6 9 0.19 0.5 0.25 0.6 0.24 0.8 0.33 0.05 6.6 0.9 0.15 5.8 10 0.30 0.3 0.29 0.4 0.39 0.6 0.34 0.06 5.5 0.7 0.11 6.0 Total 1.8 10.6 2.3 14.2 2.4 13.8 2.6 0.3 7.5 14.9 1.9 7.7 Notes: Pop = population in millions; # of HH = number of households in millions. A4.33 The percentages and numbers of households using different energy sources are shown in Table A4.23 and Table A4.24, respectively. The uptake of fuelwood was much greater than nationally, as was the uptake of dung in urban areas in 1999 and 2001. The use of agricultural residues in rural areas was lower. The rate of electrification exceeded the national average in rural areas. This notwithstanding, the uptake of kerosene was much more extensive. The uptake of natural gas was markedly less, and predictably, that of LPG correspondingly more--in fact, the greatest of any province in the country. That the uptake of LPG should be markedly higher than in the rest of the country in rural NWFP is surprising, and may be indicative of data problems arising from sample size limitations, sampling bias, or both. The numbers of households using different forms of energy appear to be affected by data problems related to the odd population trend between 1997 and 1999. It is not likely, for example, that the number of households using electricity actually fell by 400,000 between 1997 and 1999. Annex 4: Household Survey Findings, Regional Analysis 139 Table A4.23: Percentage of Households in NWFP Using Different Energy Sources Area and Survey Year Biomass Wood Dung Agr Resid Electricity Kerosene Natural Gas LPG NWFP 1994 88 75 24 28 76 84 6.2 12 1997 89 81 20 21 84 71 6.6 13 1999 88 83 26 16 74 62 9.0 18 2001 88 83 31 16 79 64 9.7 24 Urban 1994 49 42 8.2 15 97 54 36 16 1997 45 42 8.3 10 96 40 42 18 1999 46 43 15 4.5 96 32 46 23 2001 48 45 16 6.2 97 34 43 25 Rural 1994 95 80 27 30 72 89 1.0 11 1997 96 88 23 23 82 76 0.6 12 1999 95 90 28 18 71 68 2.4 17 2001 95 90 33 18 75 70 3.8 23 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. 140 Pakistan: Household Use of Commercial Energy Table A4.24: Number of Households in NWFP Using Different Energy Sources Number of Households in Millions Area and Survey Year Biomass Wood Dung Agr Resid Electricity Kerosene Natural Gas LPG NWFP 1994 6.7 5.0 2.9 2.4 5.8 5.4 1.0 0.3 1997 7.5 5.6 3.2 2.8 7.2 4.9 1.3 0.4 1999 7.8 5.5 4.2 3.0 7.6 4.1 1.4 0.7 2001 8.4 5.1 4.1 4.3 8.5 3.2 1.9 0.7 Urban 1994 1.0 0.9 0.3 0.1 2.1 0.9 1.0 0.2 1997 0.9 0.9 0.3 0.1 2.5 0.8 1.2 0.2 1999 1.1 0.9 0.4 0.2 2.7 0.8 1.3 0.3 2001 1.0 0.8 0.4 0.2 2.9 0.4 1.7 0.3 Rural 1994 5.8 4.1 2.7 2.3 3.7 4.6 0.0 0.1 1997 6.6 4.7 3.0 2.7 4.8 4.1 0.1 0.2 1999 6.7 4.6 3.8 2.8 5.0 3.2 0.1 0.3 2001 7.3 4.3 3.7 4.0 5.6 2.8 0.2 0.4 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. A4.34 Table A4.35 shows the top four energy-choice combinations. Averaged across all surveyed households in the province, those using only kerosene, biomass, and electricity were most numerous. Annex 4: Household Survey Findings, Regional Analysis 141 Table A4.25: Number of Households in NWFP in the Top Four Energy-Choice Combinations NWFP Top Choice Second Choice Third Choice Fourth Choice 1994 Kero-bio-elec Bio-kero Bio-elec Gas-elec # of Households 830,000 390,000 120,000 88,491 1997 Kero-bio-elec Bio-elec Bio-kero L k b elec # of Households 1,100,000 420,000 320,000 170,000 1999 Kero-bio-elec Bio-kero Bio-elec Gas-elec # of Households 640,000 420,000 350,000 170,000 2001 Kero-bio-elec Bio-elec Bio-kero L k b elec # of Households 680,000 390,000 390,000 280,000 Urban 1994 Gas-elec Kero-bio-elec Kero-elec L k b elec # of Households 88,000 85,000 17,000 17,000 1997 Gas-elec Kero-bio-elec Bio-elec L k b elec # of Households 130,000 69,000 33,000 29,000 1999 Gas-elec Kero-bio-elec Bio-elec L b elec # of Households 130,000 52,000 28,000 25,000 2001 Gas-elec Kero-bio-elec Bio-elec L k b elec # of Households 130,000 60,000 35,000 30,000 Rural 1994 Kero-bio-elec Bio-kero Bio-elec L k b elec # of Households 750,000 380,000 110,000 110,000 1997 Kero-bio-elec Bio-elec Bio-kero L k b elec 980,000 390,000 320,000 140,000 1999 Kero-bio-elec Bio-kero Bio-elec L k b elec # of Households 590,000 410,000 320,000 140,000 2001 Kero-bio-elec Bio-kero Bio-elec L k b elec # of Households 620,000 390,000 360,000 250,000 Note: L k b elec LPG, kerosene, biomass and electricity. A4.35 Figure A4.17 to Figure A4.20 show the historical progression of the uptake of various forms of energy. Patterns are similar to those observed nationally except for the higher kerosene and LPG uptake and the lower natural gas uptake. 142 Pakistan: Household Use of Commercial Energy Figure A4.17: Natural Gas, LPG, and Electricity Uptake in NWFP 100 90 Natural gas 1994 80 cile de 70 LPG 1994 in 60 Electricity 1994 50 Natural gas 2001 40 households 30 LPG 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.18: Wood, Biomass, and Kerosene Uptake in NWFP 100 90 Kerosene 1994 80 cile Wood 1994 de 70 in 60 Total biomass 1994 50 Kerosene 2001 40 households Wood 2001 30 of % 20 Biomass 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Annex 4: Household Survey Findings, Regional Analysis 143 Figure A4.19: Natural Gas, LPG, and Electricity Uptake in Urban NWFP 100 90 Natural gas 1994 80 cile de 70 LPG 1994 in 60 Electricity 1994 50 Natural gas 2001 40 households 30 LPG 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.20: LPG, Kerosene, and Electricity Uptake in Rural NWFP 100 90 LPG 1994 80 cile de 70 Kerosene 1994 in 60 Electricity 1994 50 LPG 2001 40 households 30 Kerosene 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile A4.36 Table A4.26 shows how much LPG, kerosene, and fuelwood households consume in a month. Data problems are evident, and there are some irregular patterns (for example, the amount of fuelwood consumed in urban areas in 1997). The drop in the 144 Pakistan: Household Use of Commercial Energy consumption of LPG in 2001 was more marked here than in other provinces. Although the percentage of households using kerosene was higher than nationally, the amounts purchased by kerosene-consuming urban households were considerably smaller. More fuelwood was consumed in the NWFP than nationally. Table A4.26: Monthly Household Purchase or Consumption in NWFP LPG Liters Rs/Liter Kg Wood, Area and Cylinder Kerosene Kerosene all Kg Wood Kg Wood Survey Year Buyers Rs/Cylinder Buyers Buyers Households Users Buyers NWFP 1994 1.4 102 3.8 7.2 149 200 127 1997 1.4 119 3.2 10.8 187 230 146 1999 1.9 107 3.2 12.6 174 210 156 2001 0.4 365 1.9 19.3 141 169 125 Urban 1994 1.4 142 6.4 6.8 56 131 125 1997 1.4 197 5.6 10.0 209 237 149 1999 2.2 98 3.5 11.8 65 151 128 2001 0.5 377 1.9 18.7 61 137 132 Rural 1994 1.4 142 3.6 7.3 166 206 127 1997 1.3 146 3.0 10.9 209 237 149 1999 1.8 109 3.1 12.7 194 215 160 2001 0.2 363 1.9 19.4 155 172 124 Notes: LPG cylinder buyers = number of LPG cylinders purchased per month; Rs/cylinder = nominal rupees paid per cylinder; all households = averaged across all households; users = averaged across all users; buyers = averaged across purchasers only. A4.37 Table A4.27 and Table A4.28 summarize expenditure statistics averaged over purchasers. Compared to the national statistics, households spent more on natural gas and fuelwood, and less on electricity, kerosene, and LPG. Expenditures in rupees on electricity rose much faster than the CPI, and nearly twice as much in rural areas. Expenditures on natural gas also rose faster. Expenditures on LPG, kerosene, and fuelwood fell when adjusted for the CPI, with LPG falling the most. Annex 4: Household Survey Findings, Regional Analysis 145 Table A4.27: Monthly Expenditure on Purchased Energy in NWFP Nominal Rupees Averaged across Purchasers Area and Survey Year Electricity Natural Gas Kerosene LPG Wood NWFP 1994 89 145 28 142 149 1997 131 172 35 156 196 1999 227 276 40 182 221 2001 269 289 37 139 201 Urban 1994 135 151 43 142 147 1997 196 170 57 197 199 1999 355 303 41 204 184 2001 384 290 36 191 200 Rural 1994 78 111 26 142 150 1997 119 197 33 146 199 1999 197 180 40 177 226 2001 244 288 37 130 202 146 Pakistan: Household Use of Commercial Energy Table A4.28: Purchased Energy in NWFP In Percentage of Total Household Spending, Averaged across Purchasers Area and Survey Year Electricity Natural Gas Kerosene LPG Biomass Total Energy NWFP 1994 2.6 2.9 1.0 3.3 5.1 5.3 1997 2.9 3.1 1.0 2.7 4.8 5.1 1999 3.3 3.0 0.8 2.3 4.0 5.3 2001 4.1 3.9 0.7 1.9 3.5 5.6 Urban 1994 3.1 2.9 1.5 3.4 5.0 7.5 1997 3.7 3.0 1.5 3.2 4.0 7.5 1999 4.1 3.1 0.8 2.5 3.3 7.2 2001 5.1 3.7 0.6 2.5 3.6 8.5 Rural 1994 2.4 2.6 0.9 3.2 5.1 4.9 1997 2.8 3.6 0.9 2.6 5.0 4.7 1999 3.1 2.5 0.9 2.2 4.1 4.9 2001 3.9 4.2 0.7 1.8 3.5 5.1 A4.38 Table A4.29 shows cash expenditures on various energy sources, averaged across all households. Because of the much higher rate of electrification, the amount of rupees spent on electricity by rural households was higher than the national average. Similarly, the amounts spent on LPG were markedly higher than nationally. The opposite was true in the case of natural gas, because of the much lower uptake of this fuel. As for kerosene, the higher uptake rate was offset somewhat by lower consumption per kerosene-consuming household, but the amounts spent were still higher than the national average. Annex 4: Household Survey Findings, Regional Analysis 147 Table A4.29: Nominal Monthly Household Expenditures on Purchased Energy in NWFP In Rupees, Averaged across all Households Area and Survey Year Electricity Natural Gas Kerosene LPG OGE Non-OGE % OGE NWFP 1994 67 8 23 16 114 59 66 1997 107 10 25 20 162 29 85 1999 167 24 25 33 248 87 74 2001 207 27 24 33 291 64 82 Urban 1994 128 50 23 22 224 66 77 1997 178 64 23 35 300 66 82 1999 332 137 13 46 528 60 90 2001 360 122 12 48 542 69 89 Rural 1994 56 1 23 15 95 57 62 1997 95 1 25 18 139 53 72 1999 138 4 27 30 199 92 68 2001 180 11 26 30 247 63 80 Note: OGE = oil products, gas, and electricity; non-OGE = biomass, coal, and charcoal; % OGE = percentage spent on oil products, gas, and electricity out of total expenditure on energy purchase. A4.39 Table A4.30 shows expenditures on various energy sources as a percentage share of total household expenditure, averaged across all households. Despite lower percentages on electricity and natural gas, higher percentages on LPG and biomass contributed to overall shares on total energy being the same as or slightly higher than the national averages. 148 Pakistan: Household Use of Commercial Energy Table A4.30: Purchased Energy as Share of Household Expenditures in NWFP In Percentage of Total Spending, Averaged across all Households Area and Survey Year Electricity Natural Gas Kerosene LPG Biomass Total Energy NWFP 1994 1.9 0.2 0.8 0.4 1.7 5.3 1997 2.4 0.2 0.7 0.4 1.3 4.9 1999 2.4 0.3 0.5 0.4 1.5 5.1 2001 3.2 0.4 0.5 0.5 1.1 5.6 Urban 1994 3.0 1.0 0.8 0.5 1.8 7.4 1997 3.4 1.1 0.6 0.6 1.4 7.2 1999 3.9 1.4 0.2 0.6 1.0 7.1 2001 4.8 1.6 0.2 0.6 1.2 8.4 Rural 1994 1.7 0.0 0.8 0.4 1.7 4.9 1997 2.2 0.0 0.7 0.3 1.3 4.6 1999 2.2 0.1 0.6 0.4 1.6 4.8 2001 2.9 0.2 0.5 0.4 1.1 5.1 A4.40 Figure A4.21 and Figure A4.24 show expenditures on various forms of energy as percentages of total household expenditures for each decile group. The changes between 1994 and 2001 in Figure A4.21 were smaller than in other provinces. Annex 4: Household Survey Findings, Regional Analysis 149 Figure A4.21: Energy as Share of Household Expenditures in NWFP 12 10 Cash 1994 diture Cash 1997 8 Cash 1999 expen Cash 2001 6 Total 1994 Total 1997 household 4 of Total 1999 % 2 Total 2001 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.22: Expenditure on Natural Gas in Urban NWFP In Percentage of Total Household Spending, Averaged across all Households 3.0 2.5 ure 1994 2.0 expendit 1997 1.5 1999 household 1.0 of % 2001 0.5 0.0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 150 Pakistan: Household Use of Commercial Energy Figure A4.23: Expenditure on Electricity in Urban NWFP In Percentage of Total Household Spending, Averaged across all Households 6 5 1994 4 expenditure 1997 dl 3 1999 househo 2 of % 2001 1 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.24: Expenditure on Electricity in Rural NWFP In Percentage of Total Household Spending, Averaged across all Households 4.0 3.5 1994 3.0 2.5 expenditure 1997 dl 2.0 1999 1.5 househo of 1.0 % 2001 0.5 0.0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Annex 4: Household Survey Findings, Regional Analysis 151 Balochistan A4.41 Balochistan is the last of the four provinces analyzed in this study. Table A4.31 shows that Balochistan was more rural and poorer than the national average. There may have been a measurement error with rural households in 1999: the near doubling of the rural household expenditure and a greater than twofold increase in rural population between 1997 and 1999 suggest data problems. In real terms, expenditures per capita in rural areas were the lowest in 2001. Rural and urban household expenditures fell in real terms between 1999 and 2001 but were higher in 2001 than in 1997 or 1994. Table A4.31: Population Statistics in Balochistan, by Survey Year Parameter 1994 1997 1999 2001 Total Population 4,100,000 3,300,000 6,500,000 5,500,000 Urban Population 460,000 690,000 840,000 960,000 Percent Urban 11 21 13 17 Rural Population 3,600,000 2,600,000 5,700,000 4,600,000 Percent Rural 89 79 87 83 Total Number of Households 720,000 560,000 870,000 730,000 Number of Urban Households 71,000 110,000 100,000 120,000 Number of Rural Households 650,000 450,000 760,000 600,000 Per Capita Expenditure 1 523 747 972 903 Urban per Capita Expenditure 1 693 935 1,051 1,109 Rural per Capita Expenditure 1 504 702 961 746 Household Expenditure 2 2,721 3,887 6,580 6,190 Urban Household Expenditure 2 3,915 5,139 7,464 7,609 Rural Household Expenditure 2 2,592 3,592 6,459 5,906 Adjusted per Capita Expenditure 3 860 889 1,046 903 Urban per Capita Expenditure 3 1,139 1,113 1,132 1,109 Rural per Capita Expenditure 3 829 836 1,034 746 Household Expenditure 3 4,475 4,630 7,083 6,190 Urban Household Expenditure 3 6,439 6,121 8,035 7,609 Rural Household Expenditure 3 4,262 4,278 6,954 5,906 1Nominal per capita expenditures in rupees per month, inclusive of imputed and cash outlays. 2Nominal total household expenditures in rupees per month, inclusive of imputed and cash outlays. 3Monthly expenditures adjusted for the CPI with 2001 as the base year. A4.42 The number of people in each decile, split into urban and rural areas, is shown in Table A4.22. The 2001­02 PIHS data show the unusual trend of the urban household size being larger than the rural household size, both of which were larger than the corresponding national averages. Balochistan was the only one of the four provinces in which there were more rural households in the top decile than in the bottom decile. 152 Pakistan: Household Use of Commercial Energy Table A4.32: Population and Household Statistics as Function of per Capita Expenditure Decile in Balochistan 1994 1997 1999 2001 Urban Rural Urban Rural Urban Rural Urban # of Average Rural # of Average Decile Pop Pop Pop Pop Pop Pop Pop HHs HH Size Pop HHs HH Size 1 12 485 53 486 42 317 52 5 11.0 348 35 10.0 2 24 447 71 361 79 431 92 9 10.6 607 67 9.1 3 43 509 73 366 74 527 91 9 9.9 552 66 8.4 4 66 493 68 291 85 597 71 7 9.7 658 75 8.8 5 51 340 42 240 100 800 112 12 9.2 549 74 7.4 6 60 506 91 293 94 739 86 10 8.5 524 69 7.6 7 54 308 78 253 82 607 130 16 8.1 536 70 7.6 8 59 240 72 129 91 735 99 13 7.9 354 59 6.0 9 44 227 79 78 111 575 132 20 6.7 300 52 5.8 10 50 82 58 72 83 348 98 20 4.8 143 38 3.8 Total 463 3,639 685 2,569 840 5,677 964 121 8.0 4,572 605 7.6 Notes: Pop = population in millions; # of HH = number of households in millions. A4.43 Table A4.33 and Table A4.34 show the percentages and numbers of households using different sources of energy. Compared to the national statistics, there was a markedly higher percentage of households using fuelwood, twice the national average in urban areas by 2001. The use of dung and agricultural residues was much less than the national average. The rate of electrification was low, especially in rural areas. The rate of kerosene uptake was predictably much higher. The use of natural gas in urban areas was not as extensive as in other major provinces, and--again predictably--the uptake of LPG was correspondingly higher. The numbers of households using different forms of energy were affected by the reported doubling of population between 1997 and 1999, followed by a reduction of 1 million people between 1999 and 2001. As such, the results probably represent measurement errors. Annex 4: Household Survey Findings, Regional Analysis 153 Table A4.33: Percentage of Households in Balochistan Using Different Energy Sources Area and Survey Year Biomass Wood Dung Agr Resid Electricity Kerosene Natural Gas LPG Balochistan 1994 94 91 8.7 2.3 36 77 4.5 3.1 1997 88 87 8.4 1.8 46 76 8.8 3.4 1999 87 86 2.8 4.4 54 78 8.7 20 2001 87 86 5.0 12 50 71 11 12 Urban 1994 53 52 3.4 2.0 92 38 36 12 1997 47 47 2.4 0.0 95 38 41 13 1999 48 46 2.1 2.0 88 41 41 26 2001 53 51 2.5 2.4 87 37 40 20 Rural 1994 98 95 9.2 2.4 30 81 1.0 2.2 1997 98 96 9.8 2.3 35 85 1.2 1.2 1999 92 91 2.9 4.7 49 84 4.3 20 2001 94 93 5.5 13.7 42 78 5.3 9.8 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. 154 Pakistan: Household Use of Commercial Energy Table A4.34: Number of Households in Balochistan Using Different Energy Sources Number of Households in Thousands Area and Survey Year Biomass Wood Dung Agr Resid Electricity Kerosene Natural Gas LPG Balochistan 1994 680 658 63 17 260 560 33 23 1997 490 480 46 10 260 420 49 19 1999 760 750 24 38 470 680 75 180 2001 630 620 37 85 360 520 81 84 Urban 1994 37 37 2.3 1.4 65 27 26 8 1997 50 50 2.5 0 100 40 43 13 1999 50 48 2.2 2.1 91 43 42 27 2001 64 62 3.0 2.9 110 44 48 25 Rural 1994 640 620 60 15 190 530 6.7 14 1997 440 430 44 10 160 380 5.6 5 1999 710 700 22 36 370 640 33 150 2001 570 560 34 83 250 470 32 59 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. A4.44 Table A4.35 shows the top four energy-choice combinations. The most striking feature in Balochistan is that the top choice was the combination that is among the lowest on the "energy ladder": households that use only biomass and kerosene, most of whom live in rural areas. Annex 4: Household Survey Findings, Regional Analysis 155 Table A4.35: Number of Households in Balochistan in the Top Four Energy-Choice Combinations Balochistan Top Choice Second Choice Third Choice Fourth Choice 1994 Bio-kero Kero-bio-elec bio Bio-elec # of Households 380,000 160,000 71,000 46,000 1997 Bio-kero Kero-bio-elec Bio-elec Gas-elec # of Households 270,000 130,000 52,000 48,000 1999 Bio-kero Kero-bio-elec L k b elec Gas-elec # of Households 310,000 200,000 110,000 70,000 2001 Bio-kero Kero-bio-elec Gas-elec Bio-elec 320,000 130,000 77,000 73,000 Urban 1994 Gas-elec Kero-bio-elec Bio-elec LPG-elec # of Households 25,000 20,000 7,000 3,000 1997 Gas-elec Kero-bio-elec Bio-elec LPG-elec # of Households 43,000 30,000 13,000 7,000 1999 Gas-elec Kero-bio-elec L k b elec Bio-elec # of Households 40,000 19,000 12,000 7,000 2001 Gas-elec Kero-bio-elec Bio-elec Bio-kero # of Households 47,000 21,000 13,000 12,000 Rural 1994 Bio-kero Kero-bio-elec bio Bio-elec # of Households 380,000 140,000 68,000 39,000 1997 Bio-kero Kero-bio-elec Bio-elec bio # of Households 270,000 100,000 40,000 17,000 1999 Bio-kero Kero-bio-elec L k b elec Bio-elec # of Households 310,000 180,000 94,000 54,000 2001 Bio-kero Kero-bio-elec Bio-elec L k b elec # of Households 300,000 110,000 61,000 33,000 Note: L k b elec LPG, kerosene, biomass, and electricity. A4.45 Figure A4.25 to Figure A4.28 show the historical progression of uptake of various forms of energy in Balochistan for each expenditure decile. The patterns are more irregular than in other provinces, reflecting the smaller sample size. 156 Pakistan: Household Use of Commercial Energy Figure A4.25: Natural Gas, LPG, and Electricity Uptake in Balochistan 80 70 Natural gas 1994 elic 60 LPG 1994 de ni 50 Electricity 1994 ds 40 holes Natural gas 2001 30 hou LPG 2001 of 20 % Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.26: Wood, Biomass, and Kerosene Uptake in Balochistan 100 90 Kerosene 1994 elic 80 Wood 1994 de 70 ni 60 Total biomass 1994 ds 50 holes Kerosene 2001 40 hou 30 Wood 2001 of 20 % Biomass 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Annex 4: Household Survey Findings, Regional Analysis 157 Figure A4.27: Natural Gas, LPG, and Electricity Uptake in Urban Balochistan 100 90 Natural gas 1994 elice 80 LPG 1994 d 70 ni 60 Electricity 1994 ds 50 hole Natural gas 2001 40 hous 30 LPG 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.28: Historical Progression of LPG, Kerosene, and Electricity Uptake in Rural Balochistan 100 90 LPG 1994 80 cile de 70 Kerosene 1994 in 60 Electricity 1994 50 LPG 2001 40 households 30 Kerosene 2001 of % 20 Electricity 2001 10 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 158 Pakistan: Household Use of Commercial Energy A4.46 Table A4.36 shows how much LPG, kerosene, and fuelwood households consume in a month in Balochistan. Again, data reliability is questionable in certain cases, such as the price of LPG in 1999. If the 2001 data are assumed to be reasonably accurate, LPG cost considerably more in 2001 in Balochistan than in other provinces. In contrast, kerosene did not cost any more than the national average, reflecting pan-territorial pricing. The amount of kerosene purchased dropped over the years as in the rest of the country but was higher in rural areas than the national average (except in 1999). Urban households, in contrast, were buying less than half the national average by 2001. More fuelwood was consumed per household than in the rest of the country. Table A4.36: Monthly Household Purchase or Consumption in Balochistan LPG Liters Rs/Liter Kg Wood, Area and Cylinder Kerosene Kerosene all Kg Wood Kg Wood Survey Year Buyers Rs/Cylinder Buyers Buyers Households Users Buyers Balochistan 1994 1.6 82 7.4 5.8 136 150 156 1997 1.2 219 5.1 9.4 128 147 147 1999 1.8 77 2.9 13.2 191 223 130 2001 0.25 524 3.1 18.9 140 163 127 Urban 1994 1.8 149 6.2 6.7 78 150 152 1997 1.2 287 8.5 9.3 57 122 114 1999 2.2 92 3.1 12.1 77 166 128 2001 0.39 499 2.5 18.4 84 165 139 Rural 1994 1.6 78 7.4 5.8 143 150 156 1997 1.1 232 4.8 9.5 144 149 156 1999 1.7 74 2.9 13.3 206 227 131 2001 0.19 534 3.1 18.9 151 163 124 Notes: LPG cylinder buyers = number of LPG cylinders purchased per month; Rs/cylinder = nominal rupees paid per cylinder; all households = averaged across all households; users = averaged across all users; buyers = averaged across purchasers only. A4.47 Table A4.37 and Table A4.38 show expenditure statistics for purchasers. Expenditures on natural gas and fuelwood were higher, and those on electricity and LPG were lower, than nationally. Expenditures on electricity rose much faster than the CPI between 1994 and 2001, whereas those on LPG, kerosene, and fuelwood fell in real terms. In 1999 and 2001, biomass purchasers and urban natural gas users were spending approximately the same percentage of their total expenditures as nationally, but electricity users were spending considerably less than the national average, as were LPG users. Annex 4: Household Survey Findings, Regional Analysis 159 Table A4.37: Monthly Expenditure on Purchased Energy in Balochistan Nominal Rupees Averaged across Purchasers Area and Survey Year Electricity Natural Gas Kerosene LPG Wood Balochistan 1994 65 155 43 136 159 1997 99 186 48 271 181 1999 161 262 38 150 222 2001 190 261 58 118 220 Urban 1994 81 156 42 149 162 1997 107 191 79 287 164 1999 202 235 37 212 243 2001 256 266 46 174 240 Rural 1994 60 151 43 129 159 1997 94 150 45 232 185 1999 152 295 38 139 217 2001 163 252 59 95 216 160 Pakistan: Household Use of Commercial Energy Table A4.38: Purchased Energy in Balochistan In Percentage of Total Household Spending, Averaged across Purchasers Area and Survey Year Electricity Natural Gas Kerosene LPG Biomass Total Energy Balochistan 1994 1.9 3.2 1.5 3.1 5.3 5.0 1997 2.2 2.9 1.3 4.9 4.8 4.4 1999 2.1 2.9 0.6 1.7 3.5 3.1 2001 2.6 3.4 1.0 1.5 3.5 3.9 Urban 1994 2.0 3.0 1.2 4.2 4.9 6.3 1997 2.0 3.0 1.7 5.1 4.0 6.0 1999 2.5 2.6 0.7 2.7 3.6 5.4 2001 3.1 2.9 0.7 2.2 3.4 5.8 Rural 1994 1.9 4.2 1.6 2.4 5.3 4.8 1997 2.3 2.8 1.3 4.5 5.1 4.0 1999 2.1 3.2 0.6 1.5 3.5 2.8 2001 2.4 4.0 1.1 1.3 3.5 3.5 A4.48 Table A4.39 shows cash expenditures on various energy sources, averaged across all households. Expenditures on electricity were significantly lower than nationally, in part because of the lower rate of electrification. Expenditures on kerosene in rural areas and on LPG in urban areas were much higher than nationally, reflecting in part higher uptake rates of these two fuels. Amounts spent on traditional fuels (non-OGE in the table) were also much higher than nationally. Annex 4: Household Survey Findings, Regional Analysis 161 Table A4.39: Nominal Monthly Household Expenditures on Purchased Energy in Balochistan In Rupees, Averaged across all Households Area and Survey Year Electricity Natural Gas Kerosene LPG OGE Non-OGE % OGE Balochistan 1994 23 7.0 33 4 67 75 47 1997 44 16 37 9 106 70 60 1999 86 23 30 31 169 48 78 2001 93 28 41 14 177 79 69 Urban 1994 73 57 16 18 164 78 68 1997 99 78 29 36 242 70 78 1999 175 95 15 54 340 76 82 2001 218 103 17 36 373 90 81 Rural 1994 17 2 35 3 57 74 43 1997 31 2 38 3 74 70 51 1999 74 13 32 27 145 44 77 2001 69 13 46 9 137 77 64 Note: OGE = oil products, gas, and electricity; non-OEG = biomass, coal, and charcoal; % OGE = percentage spent on oil products, gas, and electricity out of total expenditure on energy purchase. A4.49 Table A4.40 shows expenditures on various energy sources as a percentage share of total household expenditure, averaged across all households. Electricity and natural gas constituted smaller percentages of total household expenditure. The shares of kerosene in rural areas and of biomass in urban areas were higher. 162 Pakistan: Household Use of Commercial Energy Table A4.40: Purchased Energy as Share of Household Expenditures in Balochistan In Percentage of Total Spending, Averaged across all Households Area and Survey Year Electricity Natural Gas Kerosene LPG Biomass Total Energy Balochistan 1994 0.7 0.1 1.2 0.1 2.4 4.6 1997 1.0 0.3 1.0 0.2 1.9 4.3 1999 1.1 0.2 0.5 0.3 0.7 3.0 2001 1.3 0.4 0.7 0.2 1.2 3.8 Urban 1994 1.8 1.1 0.5 0.5 2.3 6.3 1997 1.8 1.2 0.6 0.6 1.7 6.0 1999 2.2 1.0 0.3 0.7 1.1 5.3 2001 2.6 1.1 0.3 0.4 1.3 5.7 Rural 1994 0.5 0.0 1.3 0.1 2.5 4.4 1997 0.8 0.0 1.1 0.1 1.9 3.9 1999 1.0 0.1 0.5 0.3 0.7 2.7 2001 1.0 0.2 0.8 0.1 1.2 3.4 A4.50 Figure A4.29 to Figure A4.32 examine expenditures on various forms of energy as a percentage of total household expenditure for each decile. Comparison of Figure A4.29 with the national statistics shows a slightly larger contribution of cash-free energy sources in Balochistan among the middle deciles. Expenditures on natural gas in urban areas shows a greater dependence on the expenditure decile than nationally in 2001. Annex 4: Household Survey Findings, Regional Analysis 163 Figure A4.29: Energy as Share of Household Expenditures in Balochistan 11 10 Cash 1994 9 diture Cash 1997 8 7 Cash 1999 expen 6 Cash 2001 5 Total 1994 4 Total 1997 household of 3 Total 1999 % 2 Total 2001 1 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.30: Expenditure on Natural Gas in Urban Balochistan In Percentage of Total Household Spending, Averaged across all Households 3.0 2.5 1994 diture 2.0 expen 1997 1.5 1999 household 1.0 of % 2001 0.5 0.0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile 164 Pakistan: Household Use of Commercial Energy Figure A4.31: Expenditure on Electricity in Urban Balochistan In Percentage of Total Household Spending, Averaged across all Households 6 5 1994 diture 4 expen 1997 3 1999 household 2 of % 2001 1 0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Figure A4.32: Expenditure on Electricity in Rural Balochistan In Percentage of Total Household Spending, Averaged across all Households 4.0 3.5 1994 diture 3.0 2.5 expen 1997 2.0 1999 1.5 household of 1.0 % 2001 0.5 0.0 1 2 3 4 5 6 7 8 9 10 Per capita expenditure decile Annex 4: Household Survey Findings, Regional Analysis 165 Other Areas A4.51 Data were available for Azad Jammu and Kashimir from the 1996­97 HIES, 1998­98 PIHS, and 2001­02 PIHS. Data were available for the Northern Areas from the 1998­99 and 2001­02 PIHS, and for the FATA from the 1998­99 PIHS. However, analysis of the data by area is problematic because of the small sample size. The sample size in each survey and estimated numbers of people in urban and rural areas are given in Table A4.41. Given these small sizes, analysis by decile or quintile would not be meaningful, especially in urban areas where lower expenditure groups had few samples. For example, in the 1998­99 HIES, the bottom quintile in both the Northern Areas and Azad Jammu and Kashmir had only 12 samples each in urban areas. Because of rising income relative to other areas, by 2001­02, the corresponding figure in Azad Jammu and Kashmir had fallen to four, and even the next two quintiles had a total of only 13 urban households each. Because of these limitations, only aggregate results are presented. Table A4.41: Sample Size and Population in Other Areas Area Location Data Type 1996­97 HIES 1998­99 PIHS 2001­02 PIHS Azad Jammu and Urban Sample Size 191 192 191 Kashmir Population 230,000 250,000 290,000 Rural Sample Size 448 448 443 Population 1,700,000 2,900,000 2,700,000 Northern Areas Urban Sample Size N.A. 142 143 Population N.A. 110,000 110,000 Rural Sample Size N.A. 317 314 Population N.A. 1,100,000 790,000 FATA Rural Sample Size N.A. 383 N.A. Population N.A. 2,100,000 N.A. Note: N.A. = Not Available. A4.52 Basic population statistics are presented in Table A4.42. Azad Jammu and Kashmir had the largest total population. The percentage of the total population that was urban was much smaller than the national average in the three areas. The rural households in these areas were better off than the national average. In the case of the Northern Areas and FATA, this was because rural households were larger; expenditures per capita were lower than the national average. In Azad Jammu and Kashmir, both expenditure per capita and household expenditure were higher than the national average in rural areas for the three survey years. In urban areas in 2001, Azad Jammu and Kashmir were considerably better off than the national average; the converse held true in the Northern Areas. 166 Pakistan: Household Use of Commercial Energy Table A4.42: Population Statistics in Other Areas, by Survey Year Azad Jammu & Kashmir Northern Areas FATA Parameter 1997 1999 2001 1999 2001 1999 Total Population (millions) 2.0 3.2 3.0 1.2 0.9 2.1 Urban Population (thousands) 230 250 290 110 84 0 Percent Urban 12 8 10 9 10 0 Rural Population (millions) 1.7 2.9 2.7 1.1 0.8 2.1 Percent Rural 88 92 90 91 90 100 Total # of Households (thousands) 330 490 440 150 110 250 Urban Households (thousands) 36 37 40 13 11 0 Rural Households (thousands) 300 450 400 140 100 250 Per Capita Expenditure 1 879 1,136 1,073 879 854 770 Urban per Capita Expenditure 1 1,050 1,422 1,524 1,217 966 0 Rural per Capita Expenditure 1 858 1,112 1,028 846 842 770 Household Expenditure 2 4,783 6,599 6,731 5,980 6,148 5,628 Urban Household Expenditure 2 5,894 8,487 9,458 8,958 6,937 0 Rural Household Expenditure 2 4,648 6,442 6,454 5,697 6,062 5,628 Adjusted per Capita Expenditure 3 1,047 1,223 1,073 946 854 829 Urban per Capita Expenditure 3 1,251 1,530 1,524 1,310 966 0 Rural per Capita Expenditure 3 1,022 1,197 1,028 911 842 829 Household Expenditure 3 5,696 7,104 6,731 6,438 6,148 6,059 Urban Household Expenditure 3 7,019 9,137 9,458 9,644 6,937 0 Rural Household Expenditure 3 5,535 6,935 6,454 6,133 6,062 6,059 1Nominal per capita expenditures in rupees per month, inclusive of imputed and cash outlays. 2Nominal total household expenditures in rupees per month, inclusive of imputed and cash outlays. 3Monthly expenditures adjusted for the CPI with 2001 as the base year. A4.53 Uptake of different energy sources is illustrated in Table A4.43. In general, there was greater use of fuelwood, kerosene, and LPG in the three areas than the national average, and lesser use of natural gas, dung, and agricultural residues. In the absence of natural gas, the much higher uptake of LPG is not surprising. However, the much higher uptake of LPG in rural FATA--where per capita expenditures were lower than the national average for rural Pakistan and the average household expenditure about the same--is somewhat unexpected. Electricity uptake was quite high in Azad Jammu and Kashimir, but less than half the national average in the FATA. The large decline in the percentage of rural households in the Northern Areas reporting electricity consumption between 1999 and 2001, against reportedly declining population, is puzzling and may be an indication of inherent problems associated with a small sample size (about 300 in this case). Annex 4: Household Survey Findings, Regional Analysis 167 Table A4.43: Percentage of Households in Other Areas Using Different Energy Sources Area and Survey Year Biomass Wood Dung Agr Resid Electricity Kerosene Natural Gas LPG Azad Jammu & Kashmir 1997 81 80 0.2 10.6 88 62 0.0 39 1999 93 93 0.7 0.4 74 69 0.3 34 2001 93 92 2.3 0.6 92 67 0.7 35 Azad Jammu & Kashmir, Urban 1997 38 38 0.0 5.6 98 39 0.0 87 1999 57 56 1.5 2.0 94 53 0.0 60 2001 55 55 0.0 0.0 99 39 0.0 74 Azad Jammu & Kashmir, Rural 1997 87 86 0.2 11.2 86 65 0.0 33 1999 96 96 0.6 0.2 73 70 0.4 31 2001 96 96 2.5 0.7 91 70 0.7 31 Northern Areas 1999 94 89 1.7 16.3 83 78 0.0 12 2001 97 97 0.0 2.6 69 82 1.7 14 Northern Areas, Urban 1999 73 73 4.7 0.0 76 77 0.4 29 2001 84 84 0.0 0.8 90 74 1.1 26 Northern Areas, Rural 1999 96 90 1.4 17.8 84 78 0.0 10 2001 98 98 0.0 2.8 67 83 1.7 13 FATA 1999 99 99 45 9.7 31 95 0.5 22 Note: Agr resid = bagasse, cotton sticks, sawdust, shrubs, weeds, tobacco sticks, and so on for fuel purposes. Annex 5 Focus Group Discussions and Individual Interviews A5.54 An attempt was made to make the qualitative data as representative as possible by randomizing the selection of sites where discussions and interviews were held. Multistage stratified proportional random sampling was adopted for site selection. The focus groups were separated into male and female groups, with the same number of groups of each gender. A5.55 The procedure used in Punjab is given as an illustration. Punjab was divided into north, south, and central regions, and the districts in these regions were listed alphabetically, from which every fourth district was selected. For each selected district, tehsils were listed in alphabetical order; a tehsil would be chosen randomly, and the fourth tehsil was selected for the final sample.8 Sindh was divided into two regions, and Balochistan was not divided further. A5.56 The results of focus group selection are given in Table A5.1 to Table A5.3. The focus group discussion participants were all energy consumers. They were classified into three income groups--lower low income, upper low income, and middle income-- based on observations made and the known characteristics of the neighborhoods in which the participants lived. 8A tehsil is an administrative subdivision of local government, typically part of a district, and contains villages or municipalities. 169 170Pakistan: Household Use of Commercial Energy Table A5.1: Focus Group Discussion Locations in Punjab of Income Gender Urban/ Rural District Village/ Locality Number Participants Central Punjab 2 Male Urban Lahore Green Town (Bhatha Number 1) 6 2 Male Urban Lahore Green Town 6 2 Male Urban Lahore Green Town (Marium Colony) 5 2 Male Urban Lahore Green Town 7 3 Male Urban Lahore Ravi Road (Timber market) 8 3 Male Urban Lahore Iqbal Town (Raza block) 8 2 Male Urban Sheikhupura Farooq-Abad (Momin abad) 13 3 Female Urban Lahore Green Town (Mian chowk) 7 3 Female Urban Lahore Green Town (Nagra park) 6 3 Female Urban Lahore Iqbal Town (Neelum block) 9 2 Female Urban Sheikhupura Farooq Abad (Momin abad) 9 3 Female Urban Lahore Ravi Road 7 3 Female Urban Lahore Iqbal Town (Jahanzaib block) 10 1 Male Rural Kasure Chak 33 10 2 Male Rural Lahore Niaz Baig 11 1 Male Rural Sheikhupura Kot Sonda 8 1 Male Rural Lahore Shah Pur (Kanjran) 7 1 Male Rural Jhang Chinute (Jassrat) 8 1 Female Rural Lahore Shah Pur (Kanjran) 7 1 Female Rural Lahore Garden Town (Jeevan hana) 7 1 Female Rural Lahore Niaz Baig 10 1 Female Rural Kasure Chak 33 6 1 Female Rural Sheikhupura Terhun-Syedan 7 1 Female Rural Sheikhupura Kot-Sonda 7 1 Female Rural Jhang Chinute ( Jassrat) 7 North Punjab 3 Male Urban Rawalpindi Kahuta ( Mohallah rajgaan) 9 3 Female Urban Rawalpindi Kahuta 7 1 Male Rural Rawalpindi Brathain (Panjar) 10 1 Female Rural Rawalpindi Brathian (Panjar) 8 Annex 5: Focus Group Discussions and Individual Interviews 171 South Punjab 3 Male Urban D.G.Khan Khayabn-e-Serwer 7 3 Male Urban Multan Mandi Kumharan 8 2 Male Urban Rajan Pur Jam pur (Madni Colony) 10 3 Female Urban D.G.Khan Khayaban-e-Serwer 8 3 Female Urban Multan Mandi Kumharan 8 2 Female Urban Rajan Pur Jam Pur (Madni Colony) 10 1 Male Rural D.G.Khan Gubrah (Chait sarkani) 7 2 Male Rural Multan Basti Peray wala (Hamid pura) 14 1 Male Rural Rajan Pur Jam Pur (Rakh rekh) 13 1 Female Rural D.G.Khan Gubrah (Doday wala) 8 2 Female Rural Multan Peray wala 8 1 Female Rural Rajan Pur Jam Pur (Rakh rekh) 7 Note: For income status, 1 = Lower Low, 2 = Upper Low, 3 = Middle. 172Pakistan: Household Use of Commercial Energy Table A5.2: Focus Group Discussion Locations in Sindh of Income Gender Urban/ Rural District Village/ Locality Number Participants Lower Sindh 1 Male Urban Dadu Nangolane Kotri 8 2 Male Urban Hyderabad Morimanger, Hyderabad 9 3 Male Urban Karachi (central) Kosar Niazi Colony 8 3 Male Urban Karachi (west) Orangi Town 8 2 Male Urban Thatta Gharo 7 1 Female Urban Dadu Nangolane Kotri 8 2 Female Urban Hyderabad Morimanger, Hyderabad 9 3 Female Urban Karachi (central) Kosar Niazi Colony 8 3 Female Urban Karachi (west) Orangi Town 11 2 Female Urban Thatta Gharo 8 1 Male Rural Dadu 9 1 Male Rural Hyderabad Bhawal Zanoor, Tando Hyder 8 2 Male Rural Karachi (central) Bhangoria Goth 12 2 Male Rural Karachi (west) Maripur 8 1 Male Rural Thatta Mirpur Sakro, Village 10 1 Female Rural Dadu Darya Khan Goth Thana Bolan Khan 10 1 Female Rural Hyderabad Bhawal Zanoor, Tando Hyder 8 2 Female Rural Karachi (central) Bhangoria Goth 8 2 Female Rural Karachi (west) Maripur 9 1 Female Rural Thatta Mirpur Sakro, Lashri 11 Upper Sindh 2 Male Urban Khairpur Mirs Saeeda Goth 9 2 Male Urban Larkana Rahmat Pur/ Lateef Colony 8 Male Urban Sukkur New yard/Kot Yaqoob Ali Khan Shah 10 2 Rohri 2 Female Urban Khairpur Mirs Saeeda Goth 9 2 Female Urban Larkana Rahmat Pur/ Lateef Colony 11 Female Urban Sukkur New yard/Kot Yaqoob Ali Khan Shah 12 2 Rohri 1 Male Rural Khairpur Mirs Rind Hanja Kot Deji 10 1 Male Rural Larkana Goth Ghazi Khan Mashori Dorki 12 1 Male Rural Sukkur Rohri 9 1 Female Rural Khairpur Mirs Rind Hanja Kot Deji 8 1 Female Rural Larkana Goth Ghazi Khan Mashori Dorki 10 1 Female Rural Sukkur Rohri Sukkur 9 Note: For income status, 1 = Lower Low, 2 = Upper Low, 3 = Middle. Annex 5: Focus Group Discussions and Individual Interviews 173 Table A5.3: Focus Group Discussion Locations in Balochistan of ts ic Income Gender Urban/ Rural Distr Village/ Locality Number Participants 3 Male Urban Quetta Rahmat Colony 13 2 Male Urban Pishin City Area 9 1 Male Urban Kalat Pus-e-Shehar 13 2 Male Urban Ziarat City Ziarat 9 3 Female Urban Quetta Rahmat Colony 7 2 Female Urban Mastung Khawaj Khail Masjid Road 7 2 Female Urban Kalat Gum Guzar 7 3 Female Urban Ziarat City Ziarat 7 1 Male Rural Ziarat Killi Zindra 11 1 Male Rural Mastung Killi Parang Abad 14 1 Male Rural Kalat New Gradi Grani 13 2 Male Rural Quetta Saragurgai 9 1 Female Rural Kalat Gharani 7 1 Female Rural Pishin Killi Abdul Razaq 7 2 Female Rural Quetta Saragurgai 7 1 Female Rural Ziarat Zindra 7 Note: For income status, 1 = Lower Low, 2 = Upper Low, 3 = Middle. A5.57 Estimated household incomes are given in Table A5.4. Data classifying focus groups by location (urban or rural), gender, and income status is shown in Table A5.5. 174 Pakistan: Household Use of Commercial Energy Table A5.4: Estimated Income of Focus Groups Urban/Rural Region Mean Median Range Urban Central Punjab 15,000 12,500 8,000­40,000 Rural Central Punjab 8,000 7,500 5,000­25,000 Urban Lower Sindh 14,000 12,000 10,000­30,000 Rural Lower Sindh 7,000 6,500 5,000­25,000 Urban Upper Sindh 12,000 11,000 8,000­25,000 Rural Upper Sindh 8,000 7,500 6,000­20,000 Urban Balochistan 12,000 10,000 7,000­25,000 Rural Balochistan 6,000 5,500 5,000­18,000 Note: Mean, Median, and Range are in rupees per month per household. Table A5.5: Characteristics of Focus Groups Total Male Female Income Urban Rural Total Urban Rural Total Urban Rural Total Lower Low 3 35 38 2 16 18 1 19 20 Upper Low 22 9 31 13 5 18 9 4 13 Middle 20 0 20 8 0 8 12 0 12 Total 45 44 89 23 21 44 22 23 45 A5.58 The characteristics of the individuals interviewed are given in Table A5.6 to Table A5.9. Annex 5: Focus Group Discussions and Individual Interviews 175 Table A5.6: Individual Interviews in Punjab of i- Income Gender Age Years Education Class fication Urban/ Rural District Locality/ Village Central Punjab 3 Male 40 10 Local Leader Urban Lahore Ravi road (Killa Muhammadi) 3 Male n.a. n.a. Local Leader Urban Sheikhupura Farooq Abad 2 Male 30 5 Consumer Urban Lahore Ravi Road (Timber market) 2 Male 22 0 Consumer Urban Lahore Green Town (Marium Colony) 2 Male 40 0 Consumer Urban Lahore Green Town( Marium Colony) 3 Male 45 5 Supplier Urban Lahore Ravi Road (Timber market) 2 Female 26 0 Consumer Urban Lahore Ravi Road 3 Male 40 8 Local Leader Rural Lahore Shah Pur Kanjran 3 Male 61 8 Local Leader Rural Jhang Chaniot (Jasrat) 2 Male 22 10 Consumer Rural Lahore Shah Pur Kanjran 2 Male 60 0 Consumer Rural Jhang Chniot (Jasrat) 1 Female 50 0 Consumer Rural Lahore Shah Pur Kanjran Northern Punjab 2 Male 34 8 Supplier Urban Rawalpindi Kahuta 3 Female 36 8 Local Leader Urban Rawalpindi Kahuta (Mohalla rajgan) 1 Female 49 10 Consumer Urban Rawalpindi Kahuta (Mohalla rajgan) 2 Male n.a. n.a. Local Leader Rural Rawalpindi Khidyot 2 Male 50 12 Local Leader Rural Rawalpindi Kahuta 1 Male 35 0 Supplier Rural Rawalpindi Kahuta (Brathian) 1 Female n.a. n.a. Consumer Rural Rawalpindi Kahuta (Brathian) Southern Punjab 3 Male 34 12 Local Leader Urban Multan Mandi Kumharan 2 Male 38 12 Local Leader Urban Rajan Pur Jam pur (Tibbi lundan) 3 Male 50 10 Local Leader Urban Multan Double Phattak 3 Male 30 16 Local Leader Urban D.G.Khan Khayaban-e-Sarwar 2 Male 32 8 Consumer Urban Multan Mandi Khumaran 2 Male 40 14 Consumer Urban Rajan Pur Jampur (Madni Colony) 1 Male 40 14 Consumer Urban D.G.Khan Khayaban-e-Sarwar 1 Male 40 0 Supplier Urban Rajan Pur Jampur (Irfan abad) 3 Male 45 0 Supplier Urban Rajan Pur Rajan Pur 2 Male 55 0 Supplier Urban D.G.Khan Khayaban-e-Sarwar 1 Female 55 5 Consumer Urban Multan Aria Samaj 176 Pakistan: Household Use of Commercial Energy of i- Income Gender Age Years Education Class fication Urban/ Rural District Locality/ Village 1 Female 40 8 Consumer Urban Rajanpur Jampur 2 Female 70 0 Consumer Urban D.G.Khan Khayaban-e-Sarwar 1 Male 37 12 Local Leader Rural Multan Hamidpura (Kanora) 1 Male 50 8 Local Leader Rural D.G.Khan Gubrah 1 Male 40 0 Local Leader Rural Rajan pur Jampur (Rakh rekh) 1 Male 85 16 Consumer Rural Multan Basti Peeray Wala 1 Male 34 N.A. Consumer Rural Rajan pur Jampur (Rakh rekh) 1 Male N.A. N.A. Consumer Rural D.G.Khan Gubrah 2 Male 40 0 Supplier Rural Multan Chowk Nag Shah 1 Male 30 0 Supplier Rural D.G.Khan -- 1 Female 70 0 Consumer Rural Multan Basti Peeray Wala 2 Female 50 0 Consumer Rural Rajan pur -- 1 Female 40 0 Consumer Rural D.G.Khan Gubrah Notes: For income status, 1 = Lower Low, 2 = Upper Low, 3 = Middle. N.A. =. Not Available, -- = Not Applicable. Annex 5: Focus Group Discussions and Individual Interviews 177 Table A5.7: Individual Interviews in Balochistan of i- Income Gender Age Years Education Class fication Urban/ Rural District Locality/ Village 3 Male 30 14 Local Leader Urban Pishin City Pishin 3 Male N.A. N.A. Local Leader Urban Mastung Khelan Masjid Road 2 Male 43 N.A. Local Leader Urban Ziarat City Ziarat 2 Male N.A. N.A. Local Leader Urban Kalat Takri Abdul Khaliq 2 Male 44 0 Consumer Urban Ziarat Ziarat City 1 Male 25 16 Consumer Urban Mastung City Mastung 2 Male 35 N.A. Supplier Urban Kalat City Kalat 2 Male 22 10 Supplier Urban Mastung City Mustang 1 Male 24 N.A. Supplier Urban Ziarat City Ziarat 3 Female 85 0 Local Leader Urban Ziarat Baboo Mohalla 3 Female 25 14 Local Leader Urban Mastung Saddat Road 2 Female 61 10 Consumer Urban Quetta Patal Housing 1 Female 28 10 Consumer Urban Zaiarat Baboo Mohalla 2 Female 35 16 Consumer Urban Mastung Khawaja Khail 2 Female 50 8 Consumer Urban Kalat Gham Ghuzar 2 Male 53 N.A. Local Leader Rural Quetta Saragurgai 1 Male 22 10 Local Leader Rural Ziarat Killi Zindra 2 Male 37 0 Local Leader Rural Kalat Killi new Grani 2 Male 35 0 Supplier Rural Quetta Saragurgai 1 Male 32 0 Supplier Rural Kalat Gharani 1 Female 40 0 Consumer Rural Ziarat Zindra 1 Female N.A. N.A. Consumer Rural Quetta Saragurgai 1 Female 50 0 Consumer Rural Pishin Killi Abdul Razaq 1 Female 80 0 Consumer Rural Kalat Gharani Notes: Income status 1 Lower Low, 2 Upper Low, 3 Middle; N.A. =. Not Available, -- = Not Applicable. Table A5.8: Characteristics of Individuals Interviewed Consumers Fuel Suppliers Local Leaders Income Urban Rural Total Urban Rural Total Urban Rural Total Lower Low 6 11 17 2 3 5 0 4 4 Upper Low 11 3 14 4 2 6 3 4 7 Middle 0 0 0 2 0 2 10 2 12 Total 17 14 31 8 5 13 13 10 23 178 Pakistan: Household Use of Commercial Energy Table A5.9: Estimated Income of Individuals Interviewed Urban/Rural Region Mean Median Range Urban Central Punjab 16,000 14,000 10,000­40,000 Rural Central Punjab 10,000 9,000 7,000­30,000 Urban Balochistan 7,000 6,500 6,000­35,000 Rural Balochistan 5,000 6,000 5,000­50,000 Note: Mean, Median, and Range are in rupees per month per household. References Asia Pulse. 2001. "Pakistan oil cos told to cut liquefied petroleum gas prices 20 pct." August 2. Business Recorder. 2005a. "10% rise likely in gas prices: OGRA chief." April 13. ------. 2005b. "POL consumption up by 10%." July 11. ------. 2005c. "Message from Federal Minister for Petroleum & Natural Resources." September 30. ------. 2006. "LPG prices hit Rs 80 per kg during Eid holidays." January 14. Dawn. 2005. "LPG price shoots up to Rs50 per kg." November 6. Energy Intelligence. 2006. Oil Market Intelligence. January. ESMAP. 2003a. India: Access of the Poor to Clean Household Fuels. Report 263/03. Washington, DC: World Bank. http://wbln0018.worldbank.org/esmap/site.nsf/files/263- 03+India.pdf/$FILE/263-03+India.pdf. ESMAP. 2003b. Household Energy Use in Developing Countries: A Multicountry Study. Report 042/03. Washington, DC: World Bank. www-wds.worldbank.org/servlet/WDS_IBank _Servlet?pcont=details&eid=000090341_20040115105717. Frontier Star. 2005. "Only 38 pc oil sector deregulated, rest is almost fully regulated." August 20. HDIP and MPNR (Hydrocarbon Development Institute of Pakistan and Ministry of Petroleum and Natural Resources). Various years. Pakistan Energy Yearbook. Islamabad. IMF (International Monetary Fund). 2006. International Financial Indicators. Online database. MPNR (Ministry of Petroleum and Natural Resources). 2005. "Brief on pricing of petroleum products." November 10. www.mpnr.gov.pk/pricing%20formula.php. Pakistan Press International. 2001. "PSO further reduces LPG price." February 23. ------. 2005. "Pakistan budget deficit target would be achieved." June 12. Population Census Organization. 2006. www.statpak.gov.pk/depts/pco/. World Bank. 2003. Pakistan Oil and Gas Sector Review. Report No. 26072­PK. Washington, DC. http://lnweb18.worldbank.org/SAR/sa.nsf/Attachments/POGSR-2003/$File/POGSR- 2003.pdf. ­----. 2006. World Development Indicators. Online database. 179 Joint UNDP/World Bank ENERGY SECTOR MANAGEMENT ASSISTANCE PROGRAMME (ESMAP) LIST OF REPORTS ON COMPLETED ACTIVITIES Region/Country Activity/Report Title Date Number SUB-SAHARAN AFRICA (AFR) Africa Regional Anglophone Africa Household Energy Workshop (English) 07/88 085/88 Regional Power Seminar on Reducing Electric Power System Losses in Africa (English) 08/88 087/88 Institutional Evaluation of EGL (English) 02/89 098/89 Biomass Mapping Regional Workshops (English) 05/89 -- Francophone Household Energy Workshop (French) 08/89 -- Interafrican Electrical Engineering College: Proposals for Short- and Long-Term Development (English) 03/90 112/90 Biomass Assessment and Mapping (English) 03/90 -- Symposium on Power Sector Reform and Efficiency Improvement in Sub-Saharan Africa (English) 06/96 182/96 Commercialization of Marginal Gas Fields (English) 12/97 201/97 Commercilizing Natural Gas: Lessons from the Seminar in Nairobi for Sub-Saharan Africa and Beyond 01/00 225/00 Africa Gas Initiative ­ Main Report: Volume I 02/01 240/01 First World Bank Workshop on the Petroleum Products Sector in Sub-Saharan Africa 09/01 245/01 Ministerial Workshop on Women in Energy 10/01 250/01 Energy and Poverty Reduction: Proceedings from a Multi-Sector 03/03 266/03 And Multi-Stakeholder Workshop Addis Ababa, Ethiopia, October 23-25, 2002. Opportunities for Power Trade in the Nile Basin: Final Scoping Study 01/04 277/04 Énergies modernes et réduction de la pauvreté: Un atelier multi-sectoriel. Actes de l'atelier régional. Dakar, Sénégal, du 4 au 6 février 2003 (French Only) 01/04 278/04 Énergies modernes et réduction de la pauvreté: Un atelier multi-sectoriel. Actes de l'atelier régional. Douala, Cameroun 09/04 286/04 du 16-18 juillet 2003. (French Only) Energy and Poverty Reduction: Proceedings from the Global Village Energy Partnership (GVEP) Workshops held in Africa 01/05 298/05 Power Sector Reform in Africa: Assessing the Impact on Poor People 08/05 306/05 The Vulnerability of African Countries to Oil Price Shocks: Major 08/05 308/05 Factors and Policy Options. The Case of Oil Importing Countries Angola Energy Assessment (English and Portuguese) 05/89 4708-ANG Power Rehabilitation and Technical Assistance (English) 10/91 142/91 Africa Gas Initiative ­ Angola: Volume II 02/01 240/01 Benin Energy Assessment (English and French) 06/85 5222-BEN Botswana Energy Assessment (English) 09/84 4998-BT Pump Electrification Prefeasibility Study (English) 01/86 047/86 Review of Electricity Service Connection Policy (English) 07/87 071/87 Tuli Block Farms Electrification Study (English) 07/87 072/87 Household Energy Issues Study (English) 02/88 -- Urban Household Energy Strategy Study (English) 05/91 132/91 Burkina Faso Energy Assessment (English and French) 01/86 5730-BUR Technical Assistance Program (English) 03/86 052/86 Urban Household Energy Strategy Study (English and French) 06/91 134/91 Burundi Energy Assessment (English) 06/82 3778-BU Region/Country Activity/Report Title Date Number Burundi Petroleum Supply Management (English) 01/84 012/84 Status Report (English and French) 02/84 011/84 Presentation of Energy Projects for the Fourth Five-Year Plan (1983-1987) (English and French) 05/85 036/85 Improved Charcoal Cookstove Strategy (English and French) 09/85 042/85 Peat Utilization Project (English) 11/85 046/85 Energy Assessment (English and French) 01/92 9215-BU Cameroon Africa Gas Initiative ­ Cameroon: Volume III 02/01 240/01 Cape Verde Energy Assessment (English and Portuguese) 08/84 5073-CV Household Energy Strategy Study (English) 02/90 110/90 Central African Republic Energy Assessment (French) 08/92 9898-CAR Chad Elements of Strategy for Urban Household Energy The Case of N'djamena (French) 12/93 160/94 Comoros Energy Assessment (English and French) 01/88 7104-COM In Search of Better Ways to Develop Solar Markets: The Case of Comoros 05/00 230/00 Congo Energy Assessment (English) 01/88 6420-COB Power Development Plan (English and French) 03/90 106/90 Africa Gas Initiative ­ Congo: Volume IV 02/01 240/01 Côte d'Ivoire Energy Assessment (English and French) 04/85 5250-IVC Improved Biomass Utilization (English and French) 04/87 069/87 Power System Efficiency Study (English) 12/87 -- Power Sector Efficiency Study (French) 02/92 140/91 Project of Energy Efficiency in Buildings (English) 09/95 175/95 Africa Gas Initiative ­ Côte d'Ivoire: Volume V 02/01 240/01 Ethiopia Energy Assessment (English) 07/84 4741-ET Power System Efficiency Study (English) 10/85 045/85 Agricultural Residue Briquetting Pilot Project (English) 12/86 062/86 Bagasse Study (English) 12/86 063/86 Cooking Efficiency Project (English) 12/87 -- Energy Assessment (English) 02/96 179/96 Gabon Energy Assessment (English) 07/88 6915-GA Africa Gas Initiative ­ Gabon: Volume VI 02/01 240/01 The Gambia Energy Assessment (English) 11/83 4743-GM Solar Water Heating Retrofit Project (English) 02/85 030/85 Solar Photovoltaic Applications (English) 03/85 032/85 Petroleum Supply Management Assistance (English) 04/85 035/85 Ghana Energy Assessment (English) 11/86 6234-GH Energy Rationalization in the Industrial Sector (English) 06/88 084/88 Sawmill Residues Utilization Study (English) 11/88 074/87 Industrial Energy Efficiency (English) 11/92 148/92 Corporatization of Distribution Concessions through Capitalization 12/03 272/03 Guinea Energy Assessment (English) 11/86 6137-GUI Household Energy Strategy (English and French) 01/94 163/94 Guinea-Bissau Energy Assessment (English and Portuguese) 08/84 5083-GUB Recommended Technical Assistance Projects (English & Portuguese) 04/85 033/85 Management Options for the Electric Power and Water Supply Subsectors (English) 02/90 100/90 Power and Water Institutional Restructuring (French) 04/91 118/91 Kenya Energy Assessment (English) 05/82 3800-KE Power System Efficiency Study (English) 03/84 014/84 Status Report (English) 05/84 016/84 2 Region/Country Activity/Report Title Date Number Kenya Coal Conversion Action Plan (English) 02/87 -- Solar Water Heating Study (English) 02/87 066/87 Peri-Urban Woodfuel Development (English) 10/87 076/87 Power Master Plan (English) 11/87 -- Power Loss Reduction Study (English) 09/96 186/96 Implementation Manual: Financing Mechanisms for Solar Electric Equipment 07/00 231/00 Lesotho Energy Assessment (English) 01/84 4676-LSO Liberia Energy Assessment (English) 12/84 5279-LBR Recommended Technical Assistance Projects (English) 06/85 038/85 Power System Efficiency Study (English) 12/87 081/87 Madagascar Energy Assessment (English) 01/87 5700-MAG Power System Efficiency Study (English and French) 12/87 075/87 Environmental Impact of Woodfuels (French) 10/95 176/95 Malawi Energy Assessment (English) 08/82 3903-MAL Technical Assistance to Improve the Efficiency of Fuelwood Use in the Tobacco Industry (English) 11/83 009/83 Status Report (English) 01/84 013/84 Mali Energy Assessment (English and French) 11/91 8423-MLI Household Energy Strategy (English and French) 03/92 147/92 Islamic Republic of Mauritania Energy Assessment (English and French) 04/85 5224-MAU Household Energy Strategy Study (English and French) 07/90 123/90 Mauritius Energy Assessment (English) 12/81 3510-MAS Status Report (English) 10/83 008/83 Power System Efficiency Audit (English) 05/87 070/87 Bagasse Power Potential (English) 10/87 077/87 Energy Sector Review (English) 12/94 3643-MAS Mozambique Energy Assessment (English) 01/87 6128-MOZ Household Electricity Utilization Study (English) 03/90 113/90 Electricity Tariffs Study (English) 06/96 181/96 Sample Survey of Low Voltage Electricity Customers 06/97 195/97 Namibia Energy Assessment (English) 03/93 11320-NAM Niger Energy Assessment (French) 05/84 4642-NIR Status Report (English and French) 02/86 051/86 Improved Stoves Project (English and French) 12/87 080/87 Household Energy Conservation and Substitution (English and French) 01/88 082/88 Nigeria Energy Assessment (English) 08/83 4440-UNI Energy Assessment (English) 07/93 11672-UNI Strategic Gas Plan 02/04 279/04 Rwanda Energy Assessment (English) 06/82 3779-RW Status Report (English and French) 05/84 017/84 Improved Charcoal Cookstove Strategy (English and French) 08/86 059/86 Improved Charcoal Production Techniques (English and French) 02/87 065/87 Energy Assessment (English and French) 07/91 8017-RW Commercialization of Improved Charcoal Stoves and Carbonization Techniques Mid-Term Progress Report (English and French) 12/91 141/91 SADC SADC Regional Power Interconnection Study, Vols. I-IV (English) 12/93 - SADCC SADCC Regional Sector: Regional Capacity-Building Program for Energy Surveys and Policy Analysis (English) 11/91 - Sao Tome and Principe Energy Assessment (English) 10/85 5803-STP Senegal Energy Assessment (English) 07/83 4182-SE 3 Region/Country Activity/Report Title Date Number Senegal Status Report (English and French) 10/84 025/84 Industrial Energy Conservation Study (English) 05/85 037/85 Preparatory Assistance for Donor Meeting (English and French) 04/86 056/86 Urban Household Energy Strategy (English) 02/89 096/89 Industrial Energy Conservation Program (English) 05/94 165/94 Seychelles Energy Assessment (English) 01/84 4693-SEY Electric Power System Efficiency Study (English) 08/84 021/84 Sierra Leone Energy Assessment (English) 10/87 6597-SL Somalia Energy Assessment (English) 12/85 5796-SO Republic of South Africa Options for the Structure and Regulation of Natural Gas Industry (English) 05/95 172/95 Sudan Management Assistance to the Ministry of Energy and Mining 05/83 003/83 Energy Assessment (English) 07/83 4511-SU Power System Efficiency Study (English) 06/84 018/84 Status Report (English) 11/84 026/84 Wood Energy/Forestry Feasibility (English) 07/87 073/87 Swaziland Energy Assessment (English) 02/87 6262-SW Household Energy Strategy Study 10/97 198/97 Tanzania Energy Assessment (English) 11/84 4969-TA Peri-Urban Woodfuels Feasibility Study (English) 08/88 086/88 Tobacco Curing Efficiency Study (English) 05/89 102/89 Remote Sensing and Mapping of Woodlands (English) 06/90 -- Industrial Energy Efficiency Technical Assistance (English) 08/90 122/90 Power Loss Reduction Volume 1: Transmission and Distribution System Technical Loss Reduction and Network Development (English) 06/98 204A/98 Power Loss Reduction Volume 2: Reduction of Non-Technical Losses (English) 06/98 204B/98 Togo Energy Assessment (English) 06/85 5221-TO Wood Recovery in the Nangbeto Lake (English and French) 04/86 055/86 Power Efficiency Improvement (English and French) 12/87 078/87 Uganda Energy Assessment (English) 07/83 4453-UG Status Report (English) 08/84 020/84 Institutional Review of the Energy Sector (English) 01/85 029/85 Energy Efficiency in Tobacco Curing Industry (English) 02/86 049/86 Fuelwood/Forestry Feasibility Study (English) 03/86 053/86 Power System Efficiency Study (English) 12/88 092/88 Energy Efficiency Improvement in the Brick and Tile Industry (English) 02/89 097/89 Tobacco Curing Pilot Project (English) 03/89 UNDP Terminal Report Energy Assessment (English) 12/96 193/96 Rural Electrification Strategy Study 09/99 221/99 Zaire Energy Assessment (English) 05/86 5837-ZR Zambia Energy Assessment (English) 01/83 4110-ZA Status Report (English) 08/85 039/85 Energy Sector Institutional Review (English) 11/86 060/86 Power Subsector Efficiency Study (English) 02/89 093/88 Energy Strategy Study (English) 02/89 094/88 Urban Household Energy Strategy Study (English) 08/90 121/90 Zimbabwe Energy Assessment (English) 06/82 3765-ZIM Power System Efficiency Study (English) 06/83 005/83 Status Report (English) 08/84 019/84 4 Region/Country Activity/Report Title Date Number Power Sector Management Assistance Project (English) 04/85 034/85 Power Sector Management Institution Building (English) 09/89 -- Zimbabwe Petroleum Management Assistance (English) 12/89 109/89 Charcoal Utilization Pre-feasibility Study (English) 06/90 119/90 Integrated Energy Strategy Evaluation (English) 01/92 8768-ZIM Energy Efficiency Technical Assistance Project: Strategic Framework for a National Energy Efficiency Improvement Program (English) 04/94 -- Capacity Building for the National Energy Efficiency Improvement Programme (NEEIP) (English) 12/94 -- Rural Electrification Study 03/00 228/00 EAST ASIA AND PACIFIC (EAP) Asia Regional Pacific Household and Rural Energy Seminar (English) 11/90 -- China County-Level Rural Energy Assessments (English) 05/89 101/89 Fuelwood Forestry Preinvestment Study (English) 12/89 105/89 Strategic Options for Power Sector Reform in China (English) 07/93 156/93 Energy Efficiency and Pollution Control in Township and Village Enterprises (TVE) Industry (English) 11/94 168/94 Energy for Rural Development in China: An Assessment Based on a Joint Chinese/ESMAP Study in Six Counties (English) 06/96 183/96 Improving the Technical Efficiency of Decentralized Power Companies 09/99 222/99 Air Pollution and Acid Rain Control: The Case of Shijiazhuang City 10/03 267/03 and the Changsha Triangle Area Toward a Sustainable Coal Sector In China 07/04 287/04 Demand Side Management in a Restructured Industry: How Regulation and Policy Can Deliver Demand-Side Management Benefits to a Growing Economy and a Changing Power System 12/05 314/05 Fiji Energy Assessment (English) 06/83 4462-FIJ Indonesia Energy Assessment (English) 11/81 3543-IND Status Report (English) 09/84 022/84 Power Generation Efficiency Study (English) 02/86 050/86 Energy Efficiency in the Brick, Tile and Lime Industries (English) 04/87 067/87 Diesel Generating Plant Efficiency Study (English) 12/88 095/88 Urban Household Energy Strategy Study (English) 02/90 107/90 Biomass Gasifier Preinvestment Study Vols. I & II (English) 12/90 124/90 Prospects for Biomass Power Generation with Emphasis on Palm Oil, Sugar, Rubberwood and Plywood Residues (English) 11/94 167/94 Lao PDR Urban Electricity Demand Assessment Study (English) 03/93 154/93 Institutional Development for Off-Grid Electrification 06/99 215/99 Malaysia Sabah Power System Efficiency Study (English) 03/87 068/87 Gas Utilization Study (English) 09/91 9645-MA Mongolia Energy Efficiency in the Electricity and District Heating Sectors 10/01 247/01 Improved Space Heating Stoves for Ulaanbaatar 03/02 254/02 Impact of Improved Stoves on Indoor Air Quality in Ulaanbaatar, Mongolia 11/05 313/05 Myanmar Energy Assessment (English) 06/85 5416-BA 5 Region/Country Activity/Report Title Date Number Papua New Guinea Energy Assessment (English) 06/82 3882-PNG Status Report (English) 07/83 006/83 Institutional Review in the Energy Sector (English) 10/84 023/84 Power Tariff Study (English) 10/84 024/84 Philippines Commercial Potential for Power Production from Agricultural Residues (English) 12/93 157/93 Energy Conservation Study (English) 08/94 -- Strengthening the Non-Conventional and Rural Energy Development Program in the Philippines: A Policy Framework and Action Plan 08/01 243/01 Rural Electrification and Development in the Philippines: Measuring the Social and Economic Benefits 05/02 255/02 Solomon Islands Energy Assessment (English) 06/83 4404-SOL Energy Assessment (English) 01/92 979-SOL South Pacific Petroleum Transport in the South Pacific (English) 05/86 -- Thailand Energy Assessment (English) 09/85 5793-TH Rural Energy Issues and Options (English) 09/85 044/85 Accelerated Dissemination of Improved Stoves and Charcoal Kilns (English) 09/87 079/87 Northeast Region Village Forestry and Woodfuels Preinvestment Study (English) 02/88 083/88 Impact of Lower Oil Prices (English) 08/88 -- Coal Development and Utilization Study (English) 10/89 -- Why Liberalization May Stall in a Mature Power Market: A Review 12/03 270/03 of the Technical and Political Economy Factors that Constrained the Electricity Sector Reform in Thailand 1998-2002 Reducing Emissions from Motorcycles in Bangkok 10/03 275/03 Tonga Energy Assessment (English) 06/85 5498-TON Vanuatu Energy Assessment (English) 06/85 5577-VA Vietnam Rural and Household Energy-Issues and Options (English) 01/94 161/94 Power Sector Reform and Restructuring in Vietnam: Final Report to the Steering Committee (English and Vietnamese) 09/95 174/95 Household Energy Technical Assistance: Improved Coal Briquetting and Commercialized Dissemination of Higher Efficiency Biomass and Coal Stoves (English) 01/96 178/96 Petroleum Fiscal Issues and Policies for Fluctuating Oil Prices In Vietnam 02/01 236/01 An Overnight Success: Vietnam's Switch to Unleaded Gasoline 08/02 257/02 The Electricity Law for Vietnam--Status and Policy Issues-- The Socialist Republic of Vietnam 08/02 259/02 Petroleum Sector Technical Assistance for the Revision of the 12/03 269/03 Existing Legal and Regulatory Framework Western Samoa Energy Assessment (English) 06/85 5497-WSO SOUTH ASIA (SAS) Bangladesh Energy Assessment (English) 10/82 3873-BD Priority Investment Program (English) 05/83 002/83 Status Report (English) 04/84 015/84 Power System Efficiency Study (English) 02/85 031/85 Small Scale Uses of Gas Pre-feasibility Study (English) 12/88 -- Reducing Emissions from Baby-Taxis in Dhaka 01/02 253/02 6 Region/Country Activity/Report Title Date Number India Opportunities for Commercialization of Non-conventional Energy Systems (English) 11/88 091/88 Maharashtra Bagasse Energy Efficiency Project (English) 07/90 120/90 Mini-Hydro Development on Irrigation Dams and Canal Drops Vols. I, II and III (English) 07/91 139/91 WindFarm Pre-Investment Study (English) 12/92 150/92 Power Sector Reform Seminar (English) 04/94 166/94 Environmental Issues in the Power Sector (English) 06/98 205/98 Environmental Issues in the Power Sector: Manual for Environmental Decision Making (English) 06/99 213/99 Household Energy Strategies for Urban India: The Case of Hyderabad 06/99 214/99 Greenhouse Gas Mitigation In the Power Sector: Case Studies From India 02/01 237/01 Energy Strategies for Rural India: Evidence from Six States 08/02 258/02 Household Energy, Indoor Air Pollution, and Health 11/02 261/02 Access of the Poor to Clean Household Fuels 07/03 263/03 The Impact of Energy on Women's Lives in Rural India 01/04 276/04 Environmental Issues in the Power Sector: Long-Term Impacts And Policy Options for Rajasthan 10/04 292/04 Environmental Issues in the Power Sector: Long-Term Impacts 10/04 293/04 And Policy Options for Karnataka Nepal Energy Assessment (English) 08/83 4474-NEP Status Report (English) 01/85 028/84 Energy Efficiency & Fuel Substitution in Industries (English) 06/93 158/93 Pakistan Household Energy Assessment (English) 05/88 -- Assessment of Photovoltaic Programs, Applications, and Markets (English) 10/89 103/89 Pakistan National Household Energy Survey and Strategy Formulation Study: Project Terminal Report (English) 03/94 -- Managing the Energy Transition (English) 10/94 -- Lighting Efficiency Improvement Program Phase 1: Commercial Buildings Five Year Plan (English) 10/94 -- Clean Fuels 10/01 246/01 Household Use of Commercial Energy 05/06 320/06 Regional Toward Cleaner Urban Air in South Asia: Tackling Transport 03/04 281/04 Pollution, Understanding Sources. Sri Lanka Energy Assessment (English) 05/82 3792-CE Power System Loss Reduction Study (English) 07/83 007/83 Status Report (English) 01/84 010/84 Industrial Energy Conservation Study (English) 03/86 054/86 Sustainable Transport Options for Sri Lanka: Vol. I 02/03 262/03 Greenhouse Gas Mitigation Options in the Sri Lanka Power Sector: Vol. II 02/03 262/03 Sri Lanka Electric Power Technology Assessment (SLEPTA): Vol. III 02/03 262/03 Energy and Poverty Reduction: Proceedings from South Asia 11/03 268/03 Practitioners Workshop How Can Modern Energy Services Contribute to Poverty Reduction? Colombo, Sri Lanka, June 2-4, 2003 7 Region/Country Activity/Report Title Date Number EUROPE AND CENTRAL ASIA (ECA) Armenia Development of Heat Strategies for Urban Areas of Low-income 04/04 282/04 Transition Economies. Urban Heating Strategy for the Republic Of Armenia. Including a Summary of a Heating Strategy for the Kyrgyz Republic Bulgaria Natural Gas Policies and Issues (English) 10/96 188/96 Energy Environment Review 10/02 260/02 Central Asia and The Caucasus Cleaner Transport Fuels in Central Asia and the Caucasus 08/01 242/01 Central and Eastern Europe Power Sector Reform in Selected Countries 07/97 196/97 Central and Eastern Europe Increasing the Efficiency of Heating Systems in Central and Eastern Europe and the Former Soviet Union (English and Russian) 08/00 234/00 The Future of Natural Gas in Eastern Europe (English) 08/92 149/92 Kazakhstan Natural Gas Investment Study, Volumes 1, 2 & 3 12/97 199/97 Kazakhstan & Kyrgyzstan Opportunities for Renewable Energy Development 11/97 16855-KAZ Poland Energy Sector Restructuring Program Vols. I-V (English) 01/93 153/93 Natural Gas Upstream Policy (English and Polish) 08/98 206/98 Energy Sector Restructuring Program: Establishing the Energy Regulation Authority 10/98 208/98 Portugal Energy Assessment (English) 04/84 4824-PO Romania Natural Gas Development Strategy (English) 12/96 192/96 Private Sector Participation in Market-Based Energy-Efficiency 11/03 274/03 Financing Schemes: Lessons Learned from Romania and International Experiences. Slovenia Workshop on Private Participation in the Power Sector (English) 02/99 211/99 Turkey Energy Assessment (English) 03/83 3877-TU Energy and the Environment: Issues and Options Paper 04/00 229/00 Energy and Environment Review: Synthesis Report 12/03 273/03 MIDDLE EAST AND NORTH AFRICA (MNA) Arab Republic of Egypt Energy Assessment (English) 10/96 189/96 Energy Assessment (English and French) 03/84 4157-MOR Status Report (English and French) 01/86 048/86 Morocco Energy Sector Institutional Development Study (English and French) 07/95 173/95 Natural Gas Pricing Study (French) 10/98 209/98 Gas Development Plan Phase II (French) 02/99 210/99 Syria Energy Assessment (English) 05/86 5822-SYR Electric Power Efficiency Study (English) 09/88 089/88 Energy Efficiency Improvement in the Cement Sector (English) 04/89 099/89 Energy Efficiency Improvement in the Fertilizer Sector (English) 06/90 115/90 Tunisia Fuel Substitution (English and French) 03/90 -- Power Efficiency Study (English and French) 02/92 136/91 Energy Management Strategy in the Residential and Tertiary Sectors (English) 04/92 146/92 Renewable Energy Strategy Study, Volume I (French) 11/96 190A/96 Renewable Energy Strategy Study, Volume II (French) 11/96 190B/96 8 Region/Country Activity/Report Title Date Number Tunisia Rural Electrification in Tunisia: National Commitment, Efficient Implementation and Sound Finances 08/05 307/05 Yemen Energy Assessment (English) 12/84 4892-YAR Energy Investment Priorities (English) 02/87 6376-YAR Household Energy Strategy Study Phase I (English) 03/91 126/91 Household Energy Supply and Use in Yemen. Volume I: Main Report and Volume II: Annexes 12/05 315/05 LATIN AMERICA AND THE CARIBBEAN REGION (LCR) LCR Regional Regional Seminar on Electric Power System Loss Reduction in the Caribbean (English) 07/89 -- Elimination of Lead in Gasoline in Latin America and the Caribbean (English and Spanish) 04/97 194/97 Elimination of Lead in Gasoline in Latin America and the Caribbean - Status Report (English and Spanish) 12/97 200/97 Harmonization of Fuels Specifications in Latin America and the Caribbean (English and Spanish) 06/98 203/98 Energy and Poverty Reduction: Proceedings from the Global Village Energy Partnership (GVEP) Workshop held in Bolivia 06/05 202/05 Power Sector Reform and the Rural Poor in Central America 12/04 297/04 Estudio Comparativo Sobre la Distribución de la Renta Petrolera en Bolivia, Colombia, Ecuador y Perú 08/05 304/05 OECS Energy Sector Reform and Renewable Energy/Energy 02/06 317/06 Efficiency Options The Landfill Gas-to-Energy Initiative for Latin America and the Caribbean 02/06 318/06 Bolivia Energy Assessment (English) 04/83 4213-BO National Energy Plan (English) 12/87 -- La Paz Private Power Technical Assistance (English) 11/90 111/90 Pre-feasibility Evaluation Rural Electrification and Demand Assessment (English and Spanish) 04/91 129/91 National Energy Plan (Spanish) 08/91 131/91 Private Power Generation and Transmission (English) 01/92 137/91 Natural Gas Distribution: Economics and Regulation (English) 03/92 125/92 Natural Gas Sector Policies and Issues (English and Spanish) 12/93 164/93 Household Rural Energy Strategy (English and Spanish) 01/94 162/94 Preparation of Capitalization of the Hydrocarbon Sector 12/96 191/96 Introducing Competition into the Electricity Supply Industry in Developing Countries: Lessons from Bolivia 08/00 233/00 Final Report on Operational Activities Rural Energy and Energy Efficiency 08/00 235/00 Oil Industry Training for Indigenous People: The Bolivian Experience (English and Spanish) 09/01 244/01 Capacitación de Pueblos Indígenas en la Actividad Petrolera. Fase II 07/04 290/04 Estudio Sobre Aplicaciones en Pequeña Escala de Gas Natural 07/04 291/04 Brazil Energy Efficiency & Conservation: Strategic Partnership for Energy Efficiency in Brazil (English) 01/95 170/95 Hydro and Thermal Power Sector Study 09/97 197/97 Rural Electrification with Renewable Energy Systems in the Northeast: A Preinvestment Study 07/00 232/00 Reducing Energy Costs in Municipal Water Supply Operations 07/03 265/03 "Learning-while-doing" Energy M&T on the Brazilian Frontlines 9 Region/Country Activity/Report Title Date Number Chile Energy Sector Review (English) 08/88 7129-CH Colombia Energy Strategy Paper (English) 12/86 -- Power Sector Restructuring (English) 11/94 169/94 Colombia Energy Efficiency Report for the Commercial and Public Sector (English) 06/96 184/96 Costa Rica Energy Assessment (English and Spanish) 01/84 4655-CR Recommended Technical Assistance Projects (English) 11/84 027/84 Forest Residues Utilization Study (English and Spanish) 02/90 108/90 Dominican Republic Energy Assessment (English) 05/91 8234-DO Ecuador Energy Assessment (Spanish) 12/85 5865-EC Energy Strategy Phase I (Spanish) 07/88 -- Energy Strategy (English) 04/91 -- Private Mini-hydropower Development Study (English) 11/92 -- Energy Pricing Subsidies and Interfuel Substitution (English) 08/94 11798-EC Energy Pricing, Poverty and Social Mitigation (English) 08/94 12831-EC Guatemala Issues and Options in the Energy Sector (English) 09/93 12160-GU Health Impacts of Traditional Fuel Use 08/04 284/04 Haiti Energy Assessment (English and French) 06/82 3672-HA Status Report (English and French) 08/85 041/85 Household Energy Strategy (English and French) 12/91 143/91 Honduras Energy Assessment (English) 08/87 6476-HO Petroleum Supply Management (English) 03/91 128/91 Jamaica Energy Assessment (English) 04/85 5466-JM Petroleum Procurement, Refining, and Distribution Study (English) 11/86 061/86 Energy Efficiency Building Code Phase I (English) 03/88 -- Energy Efficiency Standards and Labels Phase I (English ) 03/88 -- Jamaica Management Information System Phase I (English) 03/88 -- Charcoal Production Project (English) 09/88 090/88 FIDCO Sawmill Residues Utilization Study (English) 09/88 088/88 Energy Sector Strategy and Investment Planning Study (English) 07/92 135/92 Mexico Improved Charcoal Production Within Forest Management for the State of Veracruz (English and Spanish) 08/91 138/91 Energy Efficiency Management Technical Assistance to the Comisión Nacional para el Ahorro de Energía (CONAE) (English) 04/96 180/96 Energy Environment Review 05/01 241/01 Nicaragua Modernizing the Fuelwood Sector in Managua and León 12/01 252/01 Policy & Strategy for the Promotion of RE Policies in Nicaragua. (Contains CD with 3 complementary reports) 01/06 316/06 Panama Power System Efficiency Study (English) 06/83 004/83 Paraguay Energy Assessment (English) 10/84 5145-PA Recommended Technical Assistance Projects (English) 09/85 -- Status Report (English and Spanish) 09/85 043/85 Reforma del Sector Hidrocarburos (Spanish Only) 03/06 319/06 Peru Energy Assessment (English) 01/84 4677-PE Status Report (English) 08/85 040/85 Proposal for a Stove Dissemination Program in the Sierra (English and Spanish) 02/87 064/87 Energy Strategy (English and Spanish) 12/90 -- 10 Region/Country Activity/Report Title Date Number Peru Study of Energy Taxation and Liberalization of the Hydrocarbons Sector (English and Spanish) 120/93 159/93 Reform and Privatization in the Hydrocarbon Sector (English and Spanish) 07/99 216/99 Rural Electrification 02/01 238/01 Saint Lucia Energy Assessment (English) 09/84 5111-SLU St. Vincent and the Grenadines Energy Assessment (English) 09/84 5103-STV Sub Andean Environmental and Social Regulation of Oil and Gas Operations in Sensitive Areas of the Sub-Andean Basin (English and Spanish) 07/99 217/99 Trinidad and Tobago Energy Assessment (English) 12/85 5930-TR GLOBAL Energy End Use Efficiency: Research and Strategy (English) 11/89 -- Women and Energy--A Resource Guide The International Network: Policies and Experience (English) 04/90 -- Guidelines for Utility Customer Management and Metering (English and Spanish) 07/91 -- Assessment of Personal Computer Models for Energy Planning in Developing Countries (English) 10/91 -- Long-Term Gas Contracts Principles and Applications (English) 02/93 152/93 Comparative Behavior of Firms Under Public and Private Ownership (English) 05/93 155/93 Development of Regional Electric Power Networks (English) 10/94 -- Roundtable on Energy Efficiency (English) 02/95 171/95 Assessing Pollution Abatement Policies with a Case Study of Ankara (English) 11/95 177/95 A Synopsis of the Third Annual Roundtable on Independent Power Projects: Rhetoric and Reality (English) 08/96 187/96 Rural Energy and Development Roundtable (English) 05/98 202/98 A Synopsis of the Second Roundtable on Energy Efficiency: Institutional and Financial Delivery Mechanisms (English) 09/98 207/98 The Effect of a Shadow Price on Carbon Emission in the Energy Portfolio of the World Bank: A Carbon Backcasting Exercise (English) 02/99 212/99 Increasing the Efficiency of Gas Distribution Phase 1: Case Studies and Thematic Data Sheets 07/99 218/99 Global Energy Sector Reform in Developing Countries: A Scorecard 07/99 219/99 Global Lighting Services for the Poor Phase II: Text Marketing of Small "Solar" Batteries for Rural Electrification Purposes 08/99 220/99 A Review of the Renewable Energy Activities of the UNDP/ World Bank Energy Sector Management Assistance Programme 1993 to 1998 11/99 223/99 Energy, Transportation and Environment: Policy Options for Environmental Improvement 12/99 224/99 11 Region/Country Activity/Report Title Date Number Privatization, Competition and Regulation in the British Electricity Industry, With Implications for Developing Countries 02/00 226/00 Reducing the Cost of Grid Extension for Rural Electrification 02/00 227/00 Undeveloped Oil and Gas Fields in the Industrializing World 02/01 239/01 Best Practice Manual: Promoting Decentralized Electrification Investment 10/01 248/01 Peri-Urban Electricity Consumers--A Forgotten but Important Group: What Can We Do to Electrify Them? 10/01 249/01 Village Power 2000: Empowering People and Transforming Markets 10/01 251/01 Private Financing for Community Infrastructure 05/02 256/02 Stakeholder Involvement in Options Assessment: 07/03 264/03 Promoting Dialogue in Meeting Water and Energy Needs: A Sourcebook A Review of ESMAP's Energy Efficiency Portfolio 11/03 271/03 A Review of ESMAP's Rural Energy and Renewable Energy 04/04 280/04 Portfolio ESMAP Renewable Energy and Energy Efficiency Reports 05/04 283/04 1998-2004 (CD Only) Regulation of Associated Gas Flaring and Venting: A Global 08/04 285/04 Overview and Lessons Learned from International Experience ESMAP Gender in Energy Reports and Other related Information 11/04 288/04 (CD Only) ESMAP Indoor Air Pollution Reports and Other related Information 11/04 289/04 (CD Only) Energy and Poverty Reduction: Proceedings from the Global Village Energy Partnership (GVEP) Workshop on the Pre-Investment Funding. Berlin, Germany, April 23-24, 2003. 11/04 294/04 Global Village Energy Partnership (GVEP) Annual Report 2003 12/04 295/04 Energy and Poverty Reduction: Proceedings from the Global Village Energy Partnership (GVEP) Workshop on Consumer Lending and Microfinance to Expand Access to Energy Services, Manila, Philippines, May 19-21, 2004 12/04 296/04 The Impact of Higher Oil Prices on Low Income Countries 03/05 299/05 And on the Poor Advancing Bioenergy for Sustainable Development: Guideline 04/05 300/05 For Policymakers and Investors ESMAP Rural Energy Reports 1999-2005 03/05 301/05 Renewable Energy and Energy Efficiency Financing and Policy Network: Options Study and Proceedings of the International Forum 07/05 303/05 Implementing Power Rationing in a Sensible Way: Lessons 08/05 305/05 Learned and International Best Practices The Urban Household Energy Transition. Joint Report with 08/05 309/05 RFF Press/ESMAP. ISBN 1-933115-07-6 Pioneering New Approaches in Support of Sustainable Development In the Extractive Sector: Community Development Toolkit, also Includes a CD containing Supporting Reports 10/05 310/05 Analysis of Power Projects with Private Participation Under Stress 10/05 311/05 Potential for Biofuels for Transport in Developing Countries 10/05 312/05 Last report added to this list: ESMAP Formal Report 319/05 12