Biofuel And Cdm - Multiple Asian Countries
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Institute for Global Environmental Strategies
Biofuel and CDM:An assessment Jane Romero Institute for Global Environmental Strategies 4 March 2009
Biofuel Use Strategies for Sustainable Development (BforSD)
Contents o o o o o
Biofuels and CDM Overview of biofuel policies in Asia Assessment of current situation Future of biofuels in CDM Way forward
Jane Romero
IGES | http://www.iges.or.jp
2
Biofuel Use Strategies for Sustainable Development (BforSD)
Biofuels and CDM “As petrol prices continue to rise, biofuel production, domestic use and trade reduce oil import dependency and increase energy security. Biofuel production creates employment, encourages economic diversification and promotes rural development. It contributes to the Kyoto Protocol reduction targets, using the financial incentive provided by the Clean Development Mechanism. Biofuels can help developed and developing countries alike meet commitments to combat climate change and achieve the Millennium Development Goals.” ~ Supachai Panitchpakdi, Secretary-General of UNCTAD Video Message to the 11th Session of the Conference of the Parties of the UN Framework Convention on Climate Change and the First Meeting of Parties of the Kyoto Protocol on the occasion of the launch of UNCTAD´s Biofuels Initiative Montreal, Canada, 7 December 2005
Jane Romero
IGES | http://www.iges.or.jp
3
Biofuel Use Strategies for Sustainable Development (BforSD)
Biofuel policies in selected Asian countries Country
Blending rate
Major feedstocks
Strategy/ Goal/ Economic measures
India
E5
Jatropha, sugarcane
Indian Biofuel National Strategy, 2008 / 20% biodiesel and bioethanol by 2017 / 11.2 mil ha of jatropha planted and matured by 2012 for the target blend of 20% / fixed prices for purchase by marketing companies
China
E10
Corn, cassava
Biofuel share 15% of transportation energy by 2020; incentives, subsidies and tax exemption for production
Malaysia
5%
Palm
National Biofuel Policy, 2006 / B5; Diesel: plans to subsidise prices for blended diesel
Indonesia
BDF: 10% E5
Palm, jatropha
National Energy Program, B20 and E15 in 2025; Diesel: subsidies (at same level as fossil fuel)
Thailand
E5, E10; B2
Palm
Biodiesel Development and Promotion Strategy / Enforce nationwide B2 in April, 2008 / B5 in 2011 / B10 in 2012; Ethanol: price incentives through tax exemptions
Philippines
BDF: 1%
Coconut
Biofuel Strategy 2006 / BDF mixing rate 1%, 2% by 2009 / Ethanol: 5% by 2009, 10% by 2011; tax exemptions and priority in financing
Japan
upper limits E3 B5
Sugarcane, waste oil
Plan to replace 500 ML/year of transport petrol with liquid biofuels by 2010; subsidies for production
Source: IGES (2008), Romero (2008)
Jane Romero
IGES | http://www.iges.or.jp
4
Biofuel Use Strategies for Sustainable Development (BforSD)
Indian biofuel national policy o Blending mandate o Indicative 20% blending by 2017 for biodiesel and bioethanol o Current blend: 5% ethanol in gasoline in 20 states o Planned to double to 10% ethanol in gasoline starting Oct 2008 but was postponed due to surge in sugarcane costs
o Sustainable production & land usage o Focus on non-edible energy crops: jatropha, pongamia (keranj), sugarcane, sweet sorghum; more R&D for second-generation feedstocks o Propagation in marginal / waste / degraded / under utilized land
o Fiscal and financial incentives o Promote biofuels by classifying biodiesel and bioethanol as declared goods to ease commerce within and outside the country‟s states o Elimination of tax and duties on biodiesel o Minimum price for oil seeds o Minimum price for bioethanol based on actual production and distribution costs Jane Romero
IGES | http://www.iges.or.jp
5
Biofuel Use Strategies for Sustainable Development (BforSD)
Theoretical potential of biofuel in Asia (2030)
Source: MRI, 2007
• biofuels can a complementary solution – if
planned and managed well Jane Romero
IGES | http://www.iges.or.jp
6
Biofuel Use Strategies for Sustainable Development (BforSD)
Current situation... o Overestimated what we know
o Underestimated the uncertainties
energy security economic gains
climate change
Jane Romero
IGES | http://www.iges.or.jp
7
Biofuel Use Strategies for Sustainable Development (BforSD)
The future ain’t what it used to be ~ Yogi Berra
o falling oil price o global recession
Jane Romero
IGES | http://www.iges.or.jp
8
Biofuel Use Strategies for Sustainable Development (BforSD)
Who gains? The jatropha case: o Greening of the environment o Rural economy and livelihood o pro-poor initiative to cultivate underutilized marginal land o labor intensive (could employ village women and children) o planting o fruit picking o jatropha oil could be utilized to fuel simple machines in villages – rural electrification
o Commercial viability still in question o marginal land ~ marginal harvest o must be produced in volume o current technology still inefficient o germplasm o harvesting process o logistics o limited number of established refineries o relies on government subsidies Jane Romero
IGES | http://www.iges.or.jp
Should governments infuse more money for R&D and demonstration projects given the current financial crisis?
9
Biofuel Use Strategies for Sustainable Development (BforSD)
Who gains? Jatropha case study in Yunan, China: o Greening of the environment o 1,200 ha planted in hillside
o Rural economy and livelihood o to augment farmer‟s income o jatropha planted not in arable land
o Feedback from farmers o o o o o
Jane Romero
“wait and see” attitude no existing market for jatropha they will only harvest the fruits if the price will be competitive no established refineries deemed too risky
IGES | http://www.iges.or.jp
10
Biofuel Use Strategies for Sustainable Development (BforSD)
Good for environment? o Biofuels are not created equal o LCA results still fuzzy o The gains in burning cleaner fuel can be offset by unsustainable production practices o o o o
rainforest destruction peat land conversion heavy fertilizer use induce water scarcity
o Questions on sustainability of biofuels partly derails its inclusion in the CDM portfolio o as of 1 January 2009, no biofuel projects among the 1300 projects approved in the CDM portfolio
Jane Romero
IGES | http://www.iges.or.jp
11
Biofuel Use Strategies for Sustainable Development (BforSD)
Overcoming barriers in CDM o Biofuels – perceived as „carbon neutral‟ – have initial high expectations to be a major focus of CDM projects o Co-benefits from biofuel production (job creation, rural development) reinforces the SD component of CDM o Currently only the CO2 reduction potential is monetized in CDM o Under the current system with limited approved methodologies applicable to biofuels, the chance for approval of biofuel CDM project on a significant scale is highly unlikely.
Jane Romero
IGES | http://www.iges.or.jp
12
Biofuel Use Strategies for Sustainable Development (BforSD)
Biofuels in CDM Meth. No. 69
Title / Description
GHG reduction 26 ktCO2
Host country India
82
Baseline methodology for the production of sugar cane based anhydrous bio-ethanol for transportation using LCA
53 ktCO2
Thailand
C
108
Biodiesel production and switching fossil fuels from petro-diesel to biodiesel in transport sector
26 ktCO2
India
C
109 129
Sunflower Methyl-Ester Biodiesel Project in Generalized baseline methodology for transportation biofuel production project with LCA
33 ktCO2 33 ktCO2
Thailand Thailand
C C
142
Palm Methyl Ester – Biodiesel Fuel (PME-BDF) production and use for transportation
218 ktCO2
Thailand
C
180
BIOLUX Benji Biodiesel Beijing Project production of waste cooking oil based biodiesel for use as fuel
123 ktCO2
China
A
185 223 224
Khon Kaen Ethanol Project Biodiesel Project Manufacturing of Biodiesel from Crude Palm Oil and Jatropha Oil
40 ktCO2 205 ktCO2 60 ktCO2
Thailand South Africa India
B C C
228 233
AGRENCO Biodiesel project in Alta Araguala Palm Methyl Ester – Biodiesel Fuel (PME-BDF) production and use for transportation in
335 ktCO2 143 ktCO2
Brazil Thailand
30 TPD Biodiesel project using oil seeds from jatropha and pongamia in Andra Pradesh, India
Remark C
WIP WIP
Note: A = Approved by the Executive Board (EB); B = Project participants / EB must make some changes; C = Rejected / new Project Design Document (PDD) must be submitted; WIP = work in progress Source: Woo (2008) using data from UNEP Risoe. Jane Romero
IGES | http://www.iges.or.jp
13
Biofuel Use Strategies for Sustainable Development (BforSD)
Biofuels in CDM Current CDM approved methodologies applicable to biofuels Methodology Description AM 0047
Production of biodiesel based on waste oils and/or waste fats from biogenic origin for use as fuel
AMS-II.F
Energy efficiency and fuel switching measures for agricultural facilities and activities
AMS-III.B
Switching fossil fuels
AMS-III.C
Emission reductions by low-greenhouse house emitting vehicles Plant oil production and use for transport applications
AMS-III.T
Note: AMS refers to Small Scale CDM Methodologies Source: http://cdm.unfccc.int/methodologies/PAmethodologies/approved.html
Jane Romero
IGES | http://www.iges.or.jp
14
Biofuel Use Strategies for Sustainable Development (BforSD)
Can CDM be made to work for biofuels? o more CDM approved methodologies needed o second generation biofuels maybe more feasible o explore use of biofuel feedstock wastes for use in biomass energy generation CDM approved methodologies which could be applied to biomass energy utilizing biofuel feedstock solid waste Methodology Description AM 36 Fuel switch from fossil fuels to biomass residues in boilers for heat generation – Version 2.1 ACM2 Grid-connected electricity generation for renewable sources (no biomass) ACM6 Grid-connected electricity from biomass residues (includes AM4 & AM15) AMS-I.C. Thermal energy for the user with or without energy AMS-I.D. Grid-connected renewable energy connection AMS-III.E Avoidance of methane production from decay of biomass through controlled combustion, gasification or mechanical/thermal treatment Source: http://cdm.unfccc.int/methodologies/PAmethodologies/approved.html Jane Romero
IGES | http://www.iges.or.jp
15
Biofuel Use Strategies for Sustainable Development (BforSD)
Way forward o current biofuel situation maybe bleak – need to revisit ambitious targets o change in policy direction – biofuel for transport and rural electrification o we need a way out of our “shock and trance” tendency when oil prices are low o work on sustainability issues - learning from „mistakes‟ not just best practices o more biofuel R&D will be needed, especially for second generation biofuels o more R&D for biofuel feedstock wastes for use in biomass energy generation o need to develop additional methodologies for biofuels in CDM or other future climate regime Thank you for your attention…. Jane Romero
IGES | http://www.iges.or.jp
16
Biofuel and CDM:An assessment Jane Romero Institute for Global Environmental Strategies 4 March 2009
Biofuel Use Strategies for Sustainable Development (BforSD)
Contents o o o o o
Biofuels and CDM Overview of biofuel policies in Asia Assessment of current situation Future of biofuels in CDM Way forward
Jane Romero
IGES | http://www.iges.or.jp
2
Biofuel Use Strategies for Sustainable Development (BforSD)
Biofuels and CDM “As petrol prices continue to rise, biofuel production, domestic use and trade reduce oil import dependency and increase energy security. Biofuel production creates employment, encourages economic diversification and promotes rural development. It contributes to the Kyoto Protocol reduction targets, using the financial incentive provided by the Clean Development Mechanism. Biofuels can help developed and developing countries alike meet commitments to combat climate change and achieve the Millennium Development Goals.” ~ Supachai Panitchpakdi, Secretary-General of UNCTAD Video Message to the 11th Session of the Conference of the Parties of the UN Framework Convention on Climate Change and the First Meeting of Parties of the Kyoto Protocol on the occasion of the launch of UNCTAD´s Biofuels Initiative Montreal, Canada, 7 December 2005
Jane Romero
IGES | http://www.iges.or.jp
3
Biofuel Use Strategies for Sustainable Development (BforSD)
Biofuel policies in selected Asian countries Country
Blending rate
Major feedstocks
Strategy/ Goal/ Economic measures
India
E5
Jatropha, sugarcane
Indian Biofuel National Strategy, 2008 / 20% biodiesel and bioethanol by 2017 / 11.2 mil ha of jatropha planted and matured by 2012 for the target blend of 20% / fixed prices for purchase by marketing companies
China
E10
Corn, cassava
Biofuel share 15% of transportation energy by 2020; incentives, subsidies and tax exemption for production
Malaysia
5%
Palm
National Biofuel Policy, 2006 / B5; Diesel: plans to subsidise prices for blended diesel
Indonesia
BDF: 10% E5
Palm, jatropha
National Energy Program, B20 and E15 in 2025; Diesel: subsidies (at same level as fossil fuel)
Thailand
E5, E10; B2
Palm
Biodiesel Development and Promotion Strategy / Enforce nationwide B2 in April, 2008 / B5 in 2011 / B10 in 2012; Ethanol: price incentives through tax exemptions
Philippines
BDF: 1%
Coconut
Biofuel Strategy 2006 / BDF mixing rate 1%, 2% by 2009 / Ethanol: 5% by 2009, 10% by 2011; tax exemptions and priority in financing
Japan
upper limits E3 B5
Sugarcane, waste oil
Plan to replace 500 ML/year of transport petrol with liquid biofuels by 2010; subsidies for production
Source: IGES (2008), Romero (2008)
Jane Romero
IGES | http://www.iges.or.jp
4
Biofuel Use Strategies for Sustainable Development (BforSD)
Indian biofuel national policy o Blending mandate o Indicative 20% blending by 2017 for biodiesel and bioethanol o Current blend: 5% ethanol in gasoline in 20 states o Planned to double to 10% ethanol in gasoline starting Oct 2008 but was postponed due to surge in sugarcane costs
o Sustainable production & land usage o Focus on non-edible energy crops: jatropha, pongamia (keranj), sugarcane, sweet sorghum; more R&D for second-generation feedstocks o Propagation in marginal / waste / degraded / under utilized land
o Fiscal and financial incentives o Promote biofuels by classifying biodiesel and bioethanol as declared goods to ease commerce within and outside the country‟s states o Elimination of tax and duties on biodiesel o Minimum price for oil seeds o Minimum price for bioethanol based on actual production and distribution costs Jane Romero
IGES | http://www.iges.or.jp
5
Biofuel Use Strategies for Sustainable Development (BforSD)
Theoretical potential of biofuel in Asia (2030)
Source: MRI, 2007
• biofuels can a complementary solution – if
planned and managed well Jane Romero
IGES | http://www.iges.or.jp
6
Biofuel Use Strategies for Sustainable Development (BforSD)
Current situation... o Overestimated what we know
o Underestimated the uncertainties
energy security economic gains
climate change
Jane Romero
IGES | http://www.iges.or.jp
7
Biofuel Use Strategies for Sustainable Development (BforSD)
The future ain’t what it used to be ~ Yogi Berra
o falling oil price o global recession
Jane Romero
IGES | http://www.iges.or.jp
8
Biofuel Use Strategies for Sustainable Development (BforSD)
Who gains? The jatropha case: o Greening of the environment o Rural economy and livelihood o pro-poor initiative to cultivate underutilized marginal land o labor intensive (could employ village women and children) o planting o fruit picking o jatropha oil could be utilized to fuel simple machines in villages – rural electrification
o Commercial viability still in question o marginal land ~ marginal harvest o must be produced in volume o current technology still inefficient o germplasm o harvesting process o logistics o limited number of established refineries o relies on government subsidies Jane Romero
IGES | http://www.iges.or.jp
Should governments infuse more money for R&D and demonstration projects given the current financial crisis?
9
Biofuel Use Strategies for Sustainable Development (BforSD)
Who gains? Jatropha case study in Yunan, China: o Greening of the environment o 1,200 ha planted in hillside
o Rural economy and livelihood o to augment farmer‟s income o jatropha planted not in arable land
o Feedback from farmers o o o o o
Jane Romero
“wait and see” attitude no existing market for jatropha they will only harvest the fruits if the price will be competitive no established refineries deemed too risky
IGES | http://www.iges.or.jp
10
Biofuel Use Strategies for Sustainable Development (BforSD)
Good for environment? o Biofuels are not created equal o LCA results still fuzzy o The gains in burning cleaner fuel can be offset by unsustainable production practices o o o o
rainforest destruction peat land conversion heavy fertilizer use induce water scarcity
o Questions on sustainability of biofuels partly derails its inclusion in the CDM portfolio o as of 1 January 2009, no biofuel projects among the 1300 projects approved in the CDM portfolio
Jane Romero
IGES | http://www.iges.or.jp
11
Biofuel Use Strategies for Sustainable Development (BforSD)
Overcoming barriers in CDM o Biofuels – perceived as „carbon neutral‟ – have initial high expectations to be a major focus of CDM projects o Co-benefits from biofuel production (job creation, rural development) reinforces the SD component of CDM o Currently only the CO2 reduction potential is monetized in CDM o Under the current system with limited approved methodologies applicable to biofuels, the chance for approval of biofuel CDM project on a significant scale is highly unlikely.
Jane Romero
IGES | http://www.iges.or.jp
12
Biofuel Use Strategies for Sustainable Development (BforSD)
Biofuels in CDM Meth. No. 69
Title / Description
GHG reduction 26 ktCO2
Host country India
82
Baseline methodology for the production of sugar cane based anhydrous bio-ethanol for transportation using LCA
53 ktCO2
Thailand
C
108
Biodiesel production and switching fossil fuels from petro-diesel to biodiesel in transport sector
26 ktCO2
India
C
109 129
Sunflower Methyl-Ester Biodiesel Project in Generalized baseline methodology for transportation biofuel production project with LCA
33 ktCO2 33 ktCO2
Thailand Thailand
C C
142
Palm Methyl Ester – Biodiesel Fuel (PME-BDF) production and use for transportation
218 ktCO2
Thailand
C
180
BIOLUX Benji Biodiesel Beijing Project production of waste cooking oil based biodiesel for use as fuel
123 ktCO2
China
A
185 223 224
Khon Kaen Ethanol Project Biodiesel Project Manufacturing of Biodiesel from Crude Palm Oil and Jatropha Oil
40 ktCO2 205 ktCO2 60 ktCO2
Thailand South Africa India
B C C
228 233
AGRENCO Biodiesel project in Alta Araguala Palm Methyl Ester – Biodiesel Fuel (PME-BDF) production and use for transportation in
335 ktCO2 143 ktCO2
Brazil Thailand
30 TPD Biodiesel project using oil seeds from jatropha and pongamia in Andra Pradesh, India
Remark C
WIP WIP
Note: A = Approved by the Executive Board (EB); B = Project participants / EB must make some changes; C = Rejected / new Project Design Document (PDD) must be submitted; WIP = work in progress Source: Woo (2008) using data from UNEP Risoe. Jane Romero
IGES | http://www.iges.or.jp
13
Biofuel Use Strategies for Sustainable Development (BforSD)
Biofuels in CDM Current CDM approved methodologies applicable to biofuels Methodology Description AM 0047
Production of biodiesel based on waste oils and/or waste fats from biogenic origin for use as fuel
AMS-II.F
Energy efficiency and fuel switching measures for agricultural facilities and activities
AMS-III.B
Switching fossil fuels
AMS-III.C
Emission reductions by low-greenhouse house emitting vehicles Plant oil production and use for transport applications
AMS-III.T
Note: AMS refers to Small Scale CDM Methodologies Source: http://cdm.unfccc.int/methodologies/PAmethodologies/approved.html
Jane Romero
IGES | http://www.iges.or.jp
14
Biofuel Use Strategies for Sustainable Development (BforSD)
Can CDM be made to work for biofuels? o more CDM approved methodologies needed o second generation biofuels maybe more feasible o explore use of biofuel feedstock wastes for use in biomass energy generation CDM approved methodologies which could be applied to biomass energy utilizing biofuel feedstock solid waste Methodology Description AM 36 Fuel switch from fossil fuels to biomass residues in boilers for heat generation – Version 2.1 ACM2 Grid-connected electricity generation for renewable sources (no biomass) ACM6 Grid-connected electricity from biomass residues (includes AM4 & AM15) AMS-I.C. Thermal energy for the user with or without energy AMS-I.D. Grid-connected renewable energy connection AMS-III.E Avoidance of methane production from decay of biomass through controlled combustion, gasification or mechanical/thermal treatment Source: http://cdm.unfccc.int/methodologies/PAmethodologies/approved.html Jane Romero
IGES | http://www.iges.or.jp
15
Biofuel Use Strategies for Sustainable Development (BforSD)
Way forward o current biofuel situation maybe bleak – need to revisit ambitious targets o change in policy direction – biofuel for transport and rural electrification o we need a way out of our “shock and trance” tendency when oil prices are low o work on sustainability issues - learning from „mistakes‟ not just best practices o more biofuel R&D will be needed, especially for second generation biofuels o more R&D for biofuel feedstock wastes for use in biomass energy generation o need to develop additional methodologies for biofuels in CDM or other future climate regime Thank you for your attention…. Jane Romero
IGES | http://www.iges.or.jp
16
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