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ICSS- Asia AIT, Thailand November 23-24, 2009 BIOENERGY POTENTIAL IN ASIA Shinya Yokoyama The University of Tokyo.

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Presentation on theme: "ICSS- Asia AIT, Thailand November 23-24, 2009 BIOENERGY POTENTIAL IN ASIA Shinya Yokoyama The University of Tokyo."— Presentation transcript:

1 ICSS- Asia AIT, Thailand November 23-24, 2009 BIOENERGY POTENTIAL IN ASIA Shinya Yokoyama The University of Tokyo

2 BIOMASS ENERGY CONVERSION TECHNOLOGY

3 SHORT, MEDIUM, AND LONG TERM TERGETS OF BIOMASS CONVERSION TECHNOLOGY Short Term: + Power generation, Cogeneration Small Scale Gasification + Anaerobic Digestion to Methane Production + Bioethanol Production from Sugars and Grains + Pyrolysis + Biodiesel + Thermal Utilization Medium Term: + Bioethanol Production from Cellulosic Materials Long Term: + BTL

4 POTENTIAL OF AGRICULTURAL RESIDUES CP * RPR * AF = ARP CP : Crop Production 1) RPR: Residue Production Ratio ( by weight ) 2)~6) AF : Availability Factor 2) ARP: Available Residue Production TRP: Total Residue Production = TRP TRP * NCV = TEP , ARP * NCV = AEP NCV: Net Calorific Value 2)6)7) ARP: Available Energy Potential TEP: Total Energy Potential AEP: Available Energy Potential Source: 1) FAO Statistics(2007), 2005-2007 平均 2) Sajjakulnukit(2005,Thailand) 3) COGEN(2005, Indonesia) 4) MOA/DOE(1998,China) 5) NEDO(2007, ASEAN) 6) Soni(2005, Indonesia) 7)China Energy Statistical Yearbook(2005. China) ×RPR ×AF Crop Residue Available residue

5 E Diesel E Residue Sugar mill Power plant Vehicle Houses Power plant CH 4 CO 2 CH 4 E B B P P P Diesel Vehicle CO 2 P Field Residue CH 4 B B … Baseline emission P … Project emission … Input energy …Output energy System evaluated SYSTEM BOUNDARY

6 CDM POWER GENERATION PROJECTS USING AGRICULTURAL RESIDUES

7 CDM PROJECT SITES

8 AGRICULTURAL RESIDUES

9 ENERGY BALANCE OF POWER GENERATION

10 GHG EMISSIONS

11 POTENTIAL OF POWER GENERATION AND ENERGY PORTFOLIO

12 GHG REDUCTION POTENTIAL ChinaThailandIndonesia Available Residue (t-biomass/yr) 453,911,85435,661,136128,395,507 GHG reduction new biomass residue (t-CO 2 eq/t-biomass) 0.8240.5460.582 GHG reduction (t-CO 2 eq/yr) 374,158,34919,470,62474,669,129 GHG emission (2006, t-CO 2 eq/yr) 6,018,000,000245,000,000280,000,000 GHG reduction potential 6.22%7.95%26.67%

13 RESULTS ChinaThailandIndonesia Resource Potential of agricultural residue t-biomass/yr 628,413,41974,644,339357,221,307 Availability % 72.00%64.88%75.55% Available residue t-biomass/yr 452,472,30048,432,741269,889,984 Available energy potential GJ/yr 6,788,362,652318,186,6641,314,484,952 Power generation Potential of power generation (average) GWh/yr 340,65121,691126,133 Alternative rate % 13.64%16.41%99.03% GHG reduction t-CO 2 eq /t-biomass 0.8240.5460.582 GHG reduction potential t-CO 2 eq /t-biomass 374,158,34919,470,62474,669,129 GHG reduction rate % 6.22%7.95%26.67%

14 LCA OF BIOFUELS

15 KEY MESSAGE + Intimate Contact and Information Exchange to Avoid Labor, Time, and Expenditure etc. + Appropriate Technologies for Energy and Materials + Further Study for Sustainability of Biomass Utilization Including, for Example, Land Use Change, Competition with Food, Biodiversity etc. + Well Designed Regulation for Biomass Utilization + International Collaboration

16 Thank you very much syokoyama@bme.en.a.u-tokyo.ac.jp

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