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Energy Use and Clean Development Mechanism Opportunities in Asia Ram M. Shrestha Asian Institute of Technology Thailand 25th March 2004 AIT Presentation Outline Economic Growth, Energy requirement and CO2 emissions Sectoral Energy Related CO2 Emission in Asia Types of Energy Related CDM Projects Potential CDM projects by sector Marginal Abatement Costs of Some Cleaner Power Projects Final Remarks AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Economic Growth, Energy requirement and CO2 emissions AIT 1.8 1.8 1.7 1.7 1.6 1.5 1.6 1.4 CO2 1.3 TPES 1.2 GDP 1.1 1990 value = 1.0 1990 value = 1 CO2 Emissions, Total Primary Energy Supply and GDP in OECD and Developing Asia during1990 -1999 1.5 1.4 CO2 1.3 GDP 1.2 TPES 1.1 1 1 0.9 0.9 0.8 0.8 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 OECD 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 Developing Asia Source: IEA 2001 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 CO2 Emissions: Share of Developing Asia, OECD and other Regions 1981 1999 25% 30% 12% 58% 53% OECD OECD 22% Asia Asia 30% Total Co2 emissiions in 1981 = 17815 milliom tonnes 58% Total Co2 emissiions in 1999 = 22818 milliom tonnes 12% Source: IEA 2001 AIT 30% OECD Developing Asia Other regions 30% IGES-URC Workshop in Asia, 24th – 26th March, 2004 Average Annual Growth Rates of GDP, Energy Supply and CO2 Emission during 1990-2000 GDP (1995$) TPES CO2 2.25 1.65 1.12 1.29 1.82 1.15 Developing Asia 6.68 4.30 3.23 China 9.84 3.60 2.80 India 5.45 4.69 4.57 Thailand 4.36 8.09 7.22 Malaysia 6.56 8.13 6.87 South Korea 6.45 8.02 6.65 OECD Japan •TPES = Total Primary Energy Supply •Growth of energy requirement and CO2 in Asia is way above that of OECD countries AIT Source IEA 2001 IGES-URC Workshop in Asia, 24th – 26th March, 2004 CO2 and Energy intensities and Fossil fuel dependence (South Asia) Energy Intensity CO2 Intensity 30.0 2.50 25.0 20.0 kg CO2/1995 USD '000 Quad TPER/1995 USD 35.0 15.0 10.0 5.0 0.0 1992 1993 1994 1995 1996 1997 1998 2.00 1.50 1.00 0.50 1999 0.00 Bangladesh Bhutan India Srilanka Pakistan OECD Nepal 1992 1993 1994 1995 Bangladesh Bhutan Srilanka Pakistan 1996 1997 India 1998 1999 Nepal OECD Fossil fuel dependence % Fossil fuel in TPER 105.00 • Energy and CO2 intensity in major countries much higher than OECD average 95.00 85.00 75.00 65.00 55.00 45.00 35.00 1992 Bangladesh 1993 Bhutan 1994 India 1995 1996 1997 Nepal Srilanka 1998 Pakistan 1999 OECD Data source: EIA website, March 2004 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 CO2 and Energy intensities and Fossil fuel dependence (South East Asia) CO2 Inte ns ity 30.00 25.00 1.80 20.00 1.60 15.00 1.40 10.00 5.00 0.00 1992 1993 Indonesia 1994 Thailand 1995 Laos 1996 Vietnam 1997 Malaysia 1998 1999 Philippines kg CO2/1995 USD '000 Quad TPER/1995 USD Energy Intensity 1.20 1.00 0.80 0.60 0.40 OECD 0.20 0.00 1992 1993 Indonesia Thailand 1994 Laos Viet nam 1995 1996 Malaysia 1997 1998 Philippines 1999 OECD Fossil fuel dependence % Fossil fuel in TPER 110.00 100.00 Energy Intensity and CO2 intensity are not only higher but also increasing in most countries 90.00 80.00 70.00 60.00 50.00 40.00 1992 1993 1994 1995 1996 Indonesia Laos Malaysia Vietnam Thailand OECD 1997 1998 1999 Philippines Data source: EIA website, March 2004 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 CO2 and Energy intensity and Fossil fuel dependence (Other Asia) Ene rgy Inte ns ity 10.00 100.00 9.00 80.00 kg CO2/1995 USD '000 Quad TPER/1995 USD CO2 Intensity 120.00 60.00 40.00 20.00 0.00 1992 1993 1994 1995 1996 1997 1998 1999 8.00 7.00 6.00 5.00 4.00 3.00 2.00 1.00 0.00 1992 South Korea China Mongolia OECD 1993 Sout h Kor ea 1994 1995 China 1996 1997 Mongolia 1998 1999 OECD Energy and CO2 intensity of China and Mongolia are very high compared to OECD average, though show a declining trend Data source: EIA website, March 2004 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Projected CO2 emissions 2000-2025 million tonne CO2 CO2 emission projections 5,000 4,000 3,000 2,000 1,000 0 1990 2000 2001 Developing countries 2005 2010 2015 Developed Countries 2020 2025 EE/FSU Data source: EIA website, March 2004 AIT •Without significant efforts in mitigation, Developing country contribution to total world emissions will be higher than Developed countries by 2020. IGES-URC Workshop in Asia, 24th – 26th March, 2004 Climate change and Sustainability • Climate Change could adversely affect many developing countries in the long run • GHG Mitigation would enhance sustainable development AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Cereal Production Impact of Climate Change CGCM1, 2080s Source: http://www.gfse.at/publ/Powerpoint/18%20Februar/18February_P2_01_IIASA_Shah.ppt AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Fossil fuel consumption increase has both long and short term implications On Environment – e.g., increased air pollution On economy – e.g., dependency on imports of energy AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 PM10 concentration (1999) in selected cities in the world PM10, micrograms per cubic meter 200 160 120 80 40 D elh i Ca Ca i ro lc ul t ta T Ch i anj on i n gq ui n K g an p Lu ur ck n Sh ow en y Zh ang en gz ho u Jin La an nz ho u Be ji Ta ng i A yua hm n ed ab ad Ja ka r Ch t a en gd u 0 Source: World Development Indicators 2003 Out of 16 cities in the world with PM10 concentration > 100 micrograms/m3, 15 cities are in Asia and 14 of them are in China and India. AIT SO2 concentration (1990-98) in the selected cities in the world SO 2, micrograms per cubic meter 450 400 350 300 250 WHO guideline = 5 0 micrograms per cubic meter 200 150 100 50 i oh a Sh ma en ya ng Be i ji ng hu Y ok u pa ns zh o Li u La n w n os co M ns ha ul A tan b Is er io an Ja n de Jin Ri o da o o ui ng Zi b Q G ui Ch yan g on gq ui n Ta g iy ua n Te hr an 0 Source: World Development Indicators 2003 Out of 30 cities exceeding WHO guideline in the world, 23 cities are in Asia and 20 cities are only in China. AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Energy and Urban Air pollution AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Implications of growth on Development Energy import dependency, % Country/Region China India Other South Asia South East Asia Developing Asia OECD 1990 -3.4 16.1 40.2 -37.7 1.1 28.0 2000 5.9 27.1 45.5 -4.0 11.6 29.8 Import dependency is increasing Higher important dependency can make economies vulnerable to fluctuations in energy prices This introduces long term growth uncertainties Data source: IEA (2002b) AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Energy Import Dependency (%) Fuel Import Dependency of Thailand under CO2 reduction targets 85 ER5 ER10 ER15 75 65 55 45 2000 AIT Base case 2005 2010 2015 2020 2025 2030 IGES-URC Workshop in Asia, 24th – 26th March, 2004 Primary Energy Mix under CO2 Emission Reduction Targets (1) Coal 60 Mtoe 40 30 70 60 20 10 20 use ER5 ER15 at all ER target Coal use 2000 2005 2010 2015 2020 2025 2030 Oil Biom ass 60 Noticeable Base ER10 ER5 ER15 40 35 15 10 5 30 25 2000 2005 2010 2015 2020 2025 2030 use under ER15. 20 Mtoe 45 Base ER5 ER10 ER15 Natural gas share 0 2000 2005 2010 2015 2020 2025 2030 Prim ary Electricity 16 AIT in Oil 25 50 14 12 under ER15 10 0 2000 2005 2010 2015 2020 2025 2030 Mtoe Base ER10 50 40 30 55 Biomass 80 ER5 ER15 Mtoe 50 Base ER10 Significant Natural Gas Base ER5 ER10 ER15 IGES-URC Workshop in Asia, 24th – 26th March, 2004 What does Renewable Energy imply for Sustainable Development? Biomass – example of sustainable energy resource Biomass resource development helps mitigate GHG emissions and provides sustainable development benefits through rural employment generation RETs like wind, solar, hydro also improve the local environment CDM+Sustainable Development? AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 NO2, SO2 Emissions in Thailand under CO2 Reduction Targets Total NOx Emission Total SO2 Emission 1,100 1,400 Base case ER5 ER10 ER15 Thousand tons 900 800 1,200 Thousand tons 1,000 700 600 500 Base case ER5 1,000 ER10 800 ER15 600 400 400 200 300 200 2000 0 2005 2010 2015 2020 2025 2000 2030 Total cumulative NO2 emission in ER15 8.6% less than in Base case during 2000-2030 AIT 2005 2010 2015 2020 2025 2030 Total cumulative SO2 emission in ER15 35.4% less than in Base case during 2000-2030 SO2 reduction higher than NO2 IGES-URC Workshop in Asia, 24th – 26th March, 2004 The Factors for high CO2 growth in developing countries High growth in GDP High dependence on fossil fuel Inefficient use of energy resources What prospects for CDM? AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Sectoral Energy Related CO2 Emission in Asian Countries AIT Sectoral contribution to National CO2 eq. emissions What are the sources of GHG emissions? And how big? AZERBAIJAN BANGLADESH BHUTAN CAMBODIA INDONESIA PAKISTAN 59886 76419 632 59445 883198 155287 Energy (%) 87.91 25.93 15.00 2.99 20.10 53.50 Fugitive emissions (% of energy emissions) 17.68 0.74 0.00 0.00 10.77 7.01 Industrial Process (%) 2.41 1.95 21.16 0.08 0.00 7.26 Manure Management (%) 1.05 2.01 0.00 0.00 0.00 2.59 Forest and Grassland conversion (Gg) -5.86 2.32 0.00 76.06 34.33 0.00 Solid Waste (%) 2.24 1.21 0.00 0.01 0.00 1.24 Wastewater treatment 1.09 0.00 0.00 0.00 0.00 0.13 Total Emissions and Removals (Gg) GHG emissions from National Communications ( year 1994) AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Contribution to country CO2 eq emissions MALAYSIA PHILIPPINES 144193 154812 56696 58.54 31.86 14.76 Industrial Process (%) THAILAND VIETNAM 285115 307621 29185 43.97 85.77 42.13 85.96 0.46 0.01 2.11 3.14 3.91 3.45 6.84 0.53 6.18 5.19 13.04 Manure Management (%) 1.09 0.00 1.74 0.03 0.95 0.01 Forest and Grassland conversion (Gg) 5.30 42.34 6.61 0.00 19.72 0.19 15.19 2.75 17.41 0.00 0.13 4.77 3.20 1.22 0.02 2.17 0.11 0.13 Total Emissions and Removals (Gg) Energy (%) SRI LANKA SOUTH KOREA Fugitive emissions (% of energy) Solid Waste (%) Wastewater treatment AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Sectoral Share in CO2 emissions in Selected countries in 2000 Elec. & Heat Unalocated. autoproducers Other Energy industries Manu. & Ind. Transport Other 100 Sectoral share of CO2, % 90 80 70 60 50 40 30 20 10 0 Source: World energy Council • Electricity, Manufacturing & Industry and Transport are the main source of energy related emissions • In Bangladesh, Pakistan, India, China and Thailand electricity sector contributes 30-50% of energy related CO2 emissions AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Sectoral Share in CO2 emissions in Selected countries in 2000 Elec. And Heat Unallocated Autoproducers Other Energy Industries Manuf. & Ind Transport Other Sectors Sectoral share of CO2 (%) 100% 80% 60% 40% 20% M A TN VI E TH AI LA ND ES IL IP PI N PH IA LA YS M A KY R KO YG ZT R AN EA SI A NE O D IN B AZ ER AR M E N AI JA N IA 0% Transport sector contributes around 30% in Srilanka, Malaysia, Philippines, Thailand and Vietnam AIT Manufacturing accounts for over 30% in China, Bangladesh, Nepal, Vietnam th th IGES-URC Workshop in Asia, 24 – 26 March, 2004 Types of Energy Related CDM projects – Energy efficiency improvement projects – Fuel switching to cleaner fossil fuels – Renewables projects – Cogeneration – Other projects AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 What are the prospects for energy efficiency related CDM projects? AIT Gaps in energy efficiency can provide the answer IGES-URC Workshop in Asia, 24th – 26th March, 2004 Efficiency gaps in Power sector (1) Supply Side – Generation efficiency gap – T & D efficiency gap Demand side – End use energy efficiency gap AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Potential CDM projects in Power sector (2) Efficiency Gaps in Power Sector Generation Efficiency Gaps Large gap in generation efficiency of coal fired plants between most Asian countries and the best practice country (BPC) in the world. Coal fired power generation in Asia are approximately 9% less efficient as compared to that in OECD. The efficiency gaps are obviously much larger when they are measured with reference to the efficiency of the best available technology (BAT). There exists a large potential for the reduction of coal consumption and CO2 emission if the electricity generation is based on BAT or best practiced technology (BPT) instead of the existing inefficient technologies. AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Electricity Generation Efficiency Gaps – Coal 50.00 45.00 40.00 35.00 30.00 25.00 20.00 15.00 10.00 5.00 0.00 Best Practice efficiency na ip pi ne Th s ai la nd O E C D M al ay si a Ja pa n hi ll C hi si a A P V ak is P In In dia do ne si a ie tn am Eff. gap ta n % Electricity generation efficiency for Coal in 1999 Data source: IEA, 2002 Efficiency gain by 1% in China and India would reduce CO2 by 24 and 11.6 million tonne respectively in 2000 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Electricity Generation Efficiency Gaps - Gas Best Practice efficiency Ch in a M al ay s ia O EC D In do ne si a Ja pa n Th ail an d Vi et na m Eff. gap As ia 50.00 45.00 40.00 35.00 30.00 25.00 20.00 15.00 10.00 5.00 0.00 In di Ba a ng lad es h Pa k is ta n % Electricity generation efficiency gap for Gas in 1999 Data source: IEA, 2002 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Electricity Transmission and Distribution Losses Large transmission and distribution efficiency gaps 0 5 10 Percent (%) 15 20 25 30 35 OECD China Thailand Malaysia World Indonesia Asia Vietnam Phillipines Sri Lanka Pakistan India Cambodia Myanmar AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Potential CDM projects in Power sector (5) Electricity Transmission and Distribution Losses (contd..) T&D losses as a percentage of total generation in some Asian countries range from 14 % in Vietnam to as high as 32 % in Myanmar. T&D losses in a well designed system can normally be within 10%, reducing technical losses appears to be a promising option for reducing the generation requirements as well as reductions CO2 emissions. 1% of T&D loss reduction in Pakistan from 1995 to 2018 would result in cumulative CO2 emission reductions of 24 to 26 million tons. Gross savings per kW of power demand avoided due to T&D loss reduction could be in the range of $ 1372 to 1770, which are significantly higher than the new T&D capacity cost per kW. (Shrestha and Azhar, 1998) AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 End-use Device Efficiency Gaps – Lamps: Lighting accounts for a large share in residential sectoral electricity consumption (e.g., 28% in India, 32.8% in Pakistan, 32% in Sri Lanka). Incandescent lamps, which use 3 to 4 times more electrical energy than compact fluorescent lamps (CFLs) are most widely used in many Asian developing countries, e. g. India, Pakistan, Sri Lanka, and Nepal. – Air conditioners (ACs): Air conditioning accounts for a major share of electricity consumption in the commercial sector. Its share varies from 20% in Pakistan to 70% in Thailand. However, the widely used ACs in Thailand till few years ago used about 45% more electrical power than the efficient ones. – Electric motors: Mostly, standard motors are used as industrial drives in India, Thailand, Pakistan, Vietnam, Indonesia and Sri Lanka. They are also used for agricultural water pumping in India. The efficiency of these motors is, however 3 to 7% less than that of energy efficient motors. AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 What environmental Benefits from improved energy efficiency in the power sector? Country Planning Period CO2 (106 tons) Emission reduction SO2 (103 tons) Emission reduction NOx (103 tons) Emission reduction NREB, India 2003-17 538 1,744 965 Pakistan 2000-14 92 206. 313 Sri Lanka 2000-17 22 48 32 Thailand 2003-17 62 651 134 Vietnam 2003-17 115 123 391 Source: Shrestha and Bhattacharya (1998) and Shrestha and Bhattacharya (2002) AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Marginal Abatement Cost (MAC) of Selected Cleaner Thermal CDM Projects in Selected Asian Countries Candidate CDM Project Country Capacity (MW) IGCC Sri Lanka Thailand Yunnan-China Sri Lanka Thailand Yunnan-China Sri Lanka 300 500 300 300 500 300 500 PFBC CFBC CC-LNG Marginal abatement cost ($/tonne CO2) 83 12 16 115 100 16 31 CO2 emission reductions (106 tonnes) 2.0 10.0 9.2 0.8 4.0 9.2 15.3 Source: ARRPEEC (2003) Wide variations in MAC for CTTs: IGCC: 12 $/tonne (Thailand) to 83 $/tonne of CO2(Sri Lanka) PFBC: 100 $/tonne (Thailand) to 115 $/tonne CO2 (Sri Lanka) CC-LNG: 31 $/tonne CO2 (Sri Lanka) AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Incremental cost of CO2 Abatement ($/ton CO2) in Thailand during 2000 – 2030 • At IAC of 28 $/tCO2, about 142 million tons of CO2 could be mitigated (cumulative) during 2010-2030. 120 100 80 60 40 20 • At IAC of $46/ tCO2 and $111/tCO2, 468 and 978 million tons of CO2 (cumulative) could be reduced respectively. AIT Total CO2 emission reduction (Million tons) Incremental cost ($/tons) • The average incremental cost of CO2 abatement (IAC) would increase from $28 per ton of CO2 in ER5 case to $111 per ton of CO2 in ER15 case. 100 300 500 700 900 IGES-URC Workshop in Asia, 24th – 26th March, 2004 1,100 Marginal Abatement Cost (MAC) of Selected Renewable CDM Projects in Selected Asian Countries In a study of selected RETs based CDM projects in Yunnan- China, NREB-India, Sri Lanka, Thailand and Viet nam by ARRPEEC (2003) wide variations in MAC are observed: Solar PV: 12 $/tonne to 364 $/tonne of CO2 Wind:11 $/tonne to 36 $/tonne of CO2 Geothermal: 5 $/tonne to 73 $/tonne of CO2 BIGCC: 3 $/tonne to 94 $/tonne of CO2 Mini-Hydro: 2.2 $/tonne of CO2 (Thailand) Limited prospect under presently relatively low CER price. AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Energy efficiency gap in steel making Bars for each country / region refers to years 1980, 1990, and 2000 in that order Source: www.worldenergy.org/ date 20th March 2004 Efficiency gap between Asian developing countries and Japan 0.4 toe/ton AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Energy efficiency gap in cement production Source: http://eetd.lbl.gov/ea/ies/iespubs/45292.pdf •Emissions reduction of 29.7 Million tonne of CO2 in India and 260 million tonne of CO2 in China if both countries can achieve best practice efficiency AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Potential for Cogeneration in ASEAN Source: www.cogen2.net Date: 16th March 2004 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Sugar industries: Fuel availability and cogeneration potential Country Sugar cane production (1,000 tonnes) Bagasse production (1,000 tonnes) Max. Power Generation Potential (GWh/year) Indonesia 31,000 8,990 2,997 Philippines 21,000 6,090 2,030 Thailand 54,000 15,660 5,220 Vietnam 12,000 3,480 1,160 118,000 34,220 11,407 Total Bagasse = Sugar cane * 0.29; 1 kWh = 3 kg of bagasse (including steam for process) Source: www.cogen3.net (Date: 16th March 2004) AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Palm oil industries: Fuel availability and cogeneration potential Country FFB production (1,000 tonnes) Residue production (1,000 tonnes) Max.Power Generation Potential (GWh/year) Indonesia 25,000 10,500 4,200 Malaysia 42,000 17,640 7,056 300 126 50 2,300 966 386 69,600 29,232 11,693 Philippines Thailand Total Residue = Fresh Fruit Bunch * 0.42; 1 kWh = 2.5 kg of residues (including steam for process) Source: www.cogen3.net Date: 16th March 2004 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Rice industries: Fuel availability and cogeneration potential Country Indonesia Paddy production (1,000 tonnes) Rice husk production (1,000 tonnes) Max. Power Generation Potential (GWh/year) 51,000 11,220 7,480 2,000 440 293 Philippines 11,000 2,420 1,613 Thailand 22,000 4,840 3,227 Vietnam 28,000 6,160 4,107 114,000 25,080 16,720 Malaysia Total Rice husk = Paddy * 0.22; 1 kWh = 1.5 kg of rice husk (including steam for process) Source: www.cogen3.net Date: 16th March 2004 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Final Remarks AIT Energy efficiency gaps and high dependence on fossil fuel present challenges as well as opportunity: CDM as vehicle for Sustainable Development Not all energy efficient and renewable technologies necessarily meet the economic criterion for CDM projects. Economic viability also depends upon the market for Certified Emission Reductions (CERs). Presently, demand for CER is low hence the low price for CER (2 to 3 $/t CO2). Several energy efficient technologies (EET) and RET projects may appear economically unattractive as CDM projects at present due to low market demand and price for CER. However if countries like U.S. and Russia are to ratify the Kyoto protocol, market for CDM will grow significantly, resulting in higher CER prices and more CDM projects would than be economically attractive. IGES-URC Workshop in Asia, 24th – 26th March, 2004 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Final Remarks (2) Incremental CO2 abatement cost for a CDM project can vary across countries. Regional level energy development may offer larger potential for CDM projects in South Asia. Careful cost benefit analysis of potential projects necessary Capacity building is essential for CDM project preparation and implementation in the South Asian countries. AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Specific energy consumption of various types of brick Kilns (tonnes of coal equivalent per 100, 000 bricks) Clamp Kiln: 30-48 Bull’s Trench Kiln: 20-24 Fixed Chimney: 16-20 Vertical Shaft Brick Kiln: 10-13 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Potential and installed capacity of selected RETs in selected Asian Countries Country Potential Solar Installed Capacity (MW) Wind Biomass Mini Solar (MW) (MW) Hydro (PV) Wind Biomass Mini Hydro (MW) India 7 kWh/ m 2/day Sri Lanka 5.4 20,000 200 17,000 10,000 10,000 57 1702 98 217 88 0.360 3 - 12.5 200 0.130 - - 4.87 kWh/m2/day Nepal 3-4 200 kWh/m2/day Source: www. teriin.org; RETs Asia, 2003; Wind Energy Monthly AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Marginal Abatement Costs in the Power sector $/tonne of CO2 at 1998 prices Country/Regions Yunnan-China CO2 emission reduction targets 5% 10% 15% 20% 1.0 4.3 7.3 7.9 NREB-India 1.8 3.4 5.4 - - - 12.5 - 15.5 18.3 Thailand 2.5 2.9 3.1 3.5 4.3 Vietnam 2.4 2.8 3.2 4.1 5.5 Sri Lanka Source: ARRPEEC (2003) MAC Ranges from: 1.0 to 2.5 $/tonne of CO2 at 5% reduction target 2.8 to 12.5 $/tonne of CO2 at 10% reduction target 3.1 to 7.3 $/tonne of CO2 at 15% reduction target AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 30% 10.6 Average unit consumation of energy for cement production AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Potential CO2 emission from Cement –Project by Cement plant in India – increasing flyash content in cement from AIT 10% to 13% - results in emission reduction from 0.813 tCO2/t cement (process emission + thermal energy emission + electricity energy emission) – for a annual production of 1.83 million ton production emission reduction is 22467 tCO2 IGES-URC Workshop in Asia, 24th – 26th March, 2004 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Energy related CO2 emission by region Developing countries CO2 emission to exceed that of industrialized countries by 2025. Presents challenges and opportunities for mitigation. AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Implications of growth on Development AIT •Increased urban pollution – developing country cities are the most polluted cities today IGES-URC Workshop in Asia, 24th – 26th March, 2004 Major sources of emission AIT Energy consumption is the major source of GHG emissions In some countries Fugitive emissions (Azerbaijan, Indonesia, Malaysia, Pakistan) fugitive emissions from gas production are significant Industrial process emissions for almost all some countries are significant – cement sector primarily Solid waste and industrial waste related emissions for Malaysia, Sri lanka, Kyrgyzstan are significant Forest and Grassland conversions represent deforestation related emissions – countries like Philippines, Thailand, Malaysia have very high emissions from this category IGES-URC Workshop in Asia, 24th – 26th March, 2004 Sustainable development Issues in growth in energy requirement – Huge investment outlay to meet the growth Energy production infrastructure ( USD 1000 billion in next 10 years for India to meet just the electricity generation infrastructure) Energy distribution infrastructure – Import dependency can seriously affect economic stability – Environmental implications AIT Urban air pollution due to increased fuel use in transportation Waste generation and disposal (e.g., coal ash) Indoor health issues in rural areas Acid rains – SO2 emissions in South Asia and South East Asia are expected to grow 150% and 200% over 2002 by 2030 under certain growth scenarios IGES-URC Workshop in Asia, 24th – 26th March, 2004 Sustainable development Waste management – MSW in South Asia and South East Asia 150% and 100% (200 – – – – million ton and 100 million ton respectively) by 2030 Air and water pollution from disposal of solid waste in urban areas Water pollution from industrial waste Opportunity cost of Land for disposal of waste is high – a serious problem Agriculture residue and animal waste in rural area - air pollution as well as loss of resource Forests – Ecological impacts of forest degradation and deforestation – Loss of livelihoods for population dependent on forest in developing countries – Climatic impacts on forest will be enhanced AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Types of CDM projects & SD Energy sector – key to sustainable economic development – Reducing costs of energy infrastructure Efficiency in supply (better technologies; cogeneration) Efficiency in use (steel, cement, waste heat recovery, residential, etc. ) – Environmental benefits AIT Fuel options (coal to oil/gas; oil to gas; fossil fuel to renewable energy) Use of agri waste and renewable to meet rural energy demand IGES-URC Workshop in Asia, 24th – 26th March, 2004 Types of CDM projects & SD Waste management – Urban solid waste – methane capture and use Reduce air pollution Reduce water pollution Reduce requirement for land Provides alternative energy resources lower dependence on fossil fuel – Agriculture residue and animal waste AIT Indoor health using biogas Rural electricity – residential and for economic growth Forests – ecological protection IGES-URC Workshop in Asia, 24th – 26th March, 2004 Submitted W-t-E projects Project Title Waste Annual handled per Electricity day (tonne) produced (MWh) Emission reduction (methane capture) (T CO2 eq) Emission reduction (fossil fuel displaced) (T CO2 eq Salvador Landfill capture 3150 315000 904942 157500 Biomethana 300 tion, Lucknow 40000 101848 30000 Landfill gas 2000 capture, Brazil 288 51000 Durban landfill 67800 384512 AIT Other benefits 75 tpd of organic manure 56960 IGES-URC Workshop in Asia, 24th – 26th March, 2004 CDM – SD in developing countries Development Climate CDM and SD spac Energy (supply an demand) Waste management (urban and agriculture) Forestry Environment AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Share of Energy Sector GHG Emissions IEA estimates that at the global level, carbon emissions from energy related activities represent about 70% of all GHG emissions. Non-carbon energy-related emissions represent another 10-15%. Source: World Energy Council (http://www.worldenergy.org/ accessed on 3 March 2004 ) AIT The U.S. energy sector CO2 emission in 1997 accounted for 86% of total GHG emissions of the country (Toman, 2001). IGES-URC Workshop in Asia, 24th – 26th March, 2004 Energy Consumption and CO2 Emissions in South Asian Countries, 2000 Commercial Energy Consumption1 Total (Quadrillion Natural Btu) Petroleum Gas Coal Nuclear Hydroelectric Other Carbon Dioxide Emissions3 (Million metric tons of carbon) Bangladesh Bhutan India Maldives Nepal Pakistan Sri Lanka 0.50 0.01 12.67 0.004 0.06 1.91 0.18 30% 24% 32% 100% 57% 41% 78% 68% 0% 7% 0% 0% 42% 0% 1% 21% 53% 0% 14% 5% 0% 0% 0% 1% 0% 0% 0% 0% 1% 55% 6% 0% 24% 12% 22% 0% 0% 0.2% 0% 5% 0% 0% 7.7 0.1 253.3 0.1 0.8 29.5 2.6 Total 15.28 34% 13% 44% 1% 7% 0.2% 294.1 Source: Energy Information Administration, International Energy Database, May 2002 Share of fossil fuels ranges from 45% (Bhutan) to 99% (Bangladesh). Coal share highest in India (53%). AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Energy Consumption and CO2 Emissions in South-east Asian Countries, 2000 Total (Quad BTU) Cambodia Petrole um Natural Gas Coal Hydro Nuclear Geotherm al etc. CO2 0.01 94.63 0.00 0.00 5.37 0.00 0.00 0.15 39.67 25.77 3.13 63.95 6.91 0.43 0.03 831.74 Indonesia 4.63 46.94 27.84 19.59 2.26 0.00 1.11 87.13 Korea, North 2.84 6.16 0.00 86.04 7.80 0.00 0.00 67.19 Korea, South 8.06 55.06 10.24 21.04 0.30 13.28 0.06 120.80 Laos 0.01 36.73 0.00 0.18 91.15 0.00 0.00 0.10 Malaysia 2.27 42.06 42.12 3.62 3.27 0.00 0.00 36.15 Mongolia 0.07 26.53 0.00 71.52 0.00 0.00 0.00 1.59 Philippines 1.25 56.74 0.55 16.32 6.55 0.00 20.36 18.62 Thailand 2.90 55.78 28.17 12.68 2.22 0.00 0.83 48.49 Vietnam 0.76 50.54 6.26 20.26 22.94 0.00 0.00 12.56 China CO2emission are in million metric ton of CO2 equivalent; Energy consumption by fuel source is in %age AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Technical Potential for Primary Energy Savings in Steel making in 1995 If India reduces energy intensity of steel production by 10% (3.7 GJ/tonne) – total energy saved will be 88 million GJ (4.6 million tonnes of Coal equivalent) per year in 1995 AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Potential CDM projects in industrial sector Iron and Steel industry Cement industry Co-generation: Co - generation efficiency = upto 90% Conventional power efficiency = about 35% – Sugar Industry – Pulp and Paper Industry Efficient brick kilns Electricity DSM programs in industry AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 CO2 and Energy intensities and Fossil fuel dependence CO2 intensity Energy Intensity 2 35.00 1.5 OECD Non-OECD 1 0.5 0 1992 1993 1994 1995 1996 1997 1998 1999 '000 Quad TPER/1995 USD kg CO2/ 1995 USD 2.5 30.00 25.00 20.00 OECD 15.00 Non-OECD 10.00 5.00 0.00 1992 1993 1994 1995 1996 1997 1998 1999 Fossil Fuel Dependence % Fossil fuel in TPER 92.00 Higher growth rates of non-OECD energy and CO2 emissions due to : 90.00 88.00 86.00 OECD 84.00 Non-OECD 82.00 80.00 78.00 1992 1993 1994 1995 1996 1997 1998 1999 Data source: EIA website, March 2004 AIT •Significantly higher energy and CO2 emission intensities •Higher dependence on fossil fuels •Higher GDP growth rates IGES-URC Workshop in Asia, 24th – 26th March, 2004 Natural Gas Reserves in Selected Asian Countries 800 billion cu m 600 400 200 0 Myanmar Bangladesh India Pakistan Source:http://www.cia.gov/cia/publications/factbook/geos/bm.html AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 CDM projects through regional energy trade/development in South Asia Hydropower development (e.g. in Nepal and Bhutan) – Displacement of thermal in India and other countries Natural gas based electricity generation - Exploration and regional development of gas pipeline in Pakistan, India and Bangladesh Fuel switching: AIT oil to gas in transport sector coal/oil to gas in industrial boilers coal/oil to gas for cooking IGES-URC Workshop in Asia, 24th – 26th March, 2004 Potential CDM projects in Transport sector Electric vehicles (with Non thermal power supply) Electric rope - ways (with Non thermal power supply) Mass Rapid Transit (MRT) (with Non thermal power supply) Use of Bio-diesel/ethanol/methanol etc. AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Potential CDM projects in Residential sector Cooking – Use of biogas as a cooking fuel – Improved cook stoves – Biomass plantation for fuelwood Lighting – CFL, Slim tubes, electronic ballast Water heating – Solar Water heater AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Potential CDM projects in Commercial sector DSM programs – Efficient A/Cs, Refrigerators, Lamps AIT IGES-URC Workshop in Asia, 24th – 26th March, 2004 Types of steel projects pulverized coal injection up to 40% in the blast furnace (primary steel) Heat recovery from sinter plants and coke ovens (primary steel) Recovery of process gas from coke ovens, blast furnaces and basic oxygen furnaces – Steel plant in India, producing 1.6 million ton steel has submitted CDM project for recovery of BOF gas (80 NM3 per ton of steel with calorific value 2000 kcal/NM3) – will result in 94.84 GWh of electricity and resultant emission reduction of 87895 tCO2.(15 MWh coal power plant) AIT Power recovery from blast furnace offgases (primary steel) IGES-URC Workshop in Asia, 24th – 26th March, 2004 Types of steel projects AIT Replacement of open-hearth furnaces by basic oxygen furnaces (primary steel); Application of continuous casting and thin slab casting; Scrap preheating in electric arc furnaces (secondary steel); Oxygen and fuel injection in electric arc furnaces (secondary steel); Efficient ladle preheating; IGES-URC Workshop in Asia, 24th – 26th March, 2004
