| S1 - S10 |
Biofuels in Asia
Yan J |
| S11 - S20 |
The development of biofuels in Asia
Zhou A, Thomson E |
| S21 - S29 |
The social and environmental impacts of biofuels in Asia: An overview
Phalan B |
| S30 - S36 |
Biofuels and resource use efficiency in developing Asia: Back to basics
Prabhakar SVRK, Elder M |
| S37 - S46 |
Biofuels and the Greater Mekong Subregion: Assessing the impact on prices, production and trade
Yang J, Huang JK, Qiu HG, Rozelle S, Sombilla MA |
| S47 - S57 |
Energy for rural India
Urban F, Benders RMJ, Moll HC |
| S58 - S68 |
Biofuels production for smallholder producers in the Greater Mekong Sub-region
Malik US, Ahmed M, Sombilla MA, Cueno SL |
| S69 - S76 |
Biofuel initiatives in Japan: Strategies, policies, and future potential
Matsumoto N, Sano D, Elder M |
| S77 - S85 |
Estimation of un-used land potential for biofuels development in (the) People's Republic of China
Tian YS, Zhao LX, Meng HB, Sun LY, Yan JY |
| S86 - S94 |
A dynamic input-output model for nascent bioenergy supply chains
Cruz JB, Tan RR, Culaba AB, Ballacillo JA |
| S95 - S99 |
Cassava, a potential biofuel crop in (the) People's Republic of China
Jansson C, Westerbergh A, Zhang JM, Hu XW, Sun CX |
| S100 - S107 |
The future of sugar cane in (the) People's Republic of China and India -Supply constraints and expansion potential
Kostka G, Polzin C, Scharrer J |
| S108 - S117 |
Political, economic and environmental impacts of biofuels: A review
Demirbas A |
| S118 - S124 |
Can biofuel crops alleviate tribal poverty in India's drylands?
Agoramoorthy G, Hsu MJ, Chaudhary S, Shieh PC |
| S125 - S131 |
Optimizing biodiesel production in India
Leduc S, Natarajan K, Dotzauer E, McCallum I, Obersteiner M |
| S132 - S139 |
Fossil energy savings potential of sugar cane bio-energy systems
Nguyen TLT, Hermansen JE, Sagisaka M |
| S140 - S150 |
Woody biomass and bioenergy potentials in Southeast Asia between 1990 and 2020
Sasaki N, Knorr W, Foster DR, Etoh H, Ninomiya H, Chay S, Kim S, Sun SX |
| S151 - S161 |
Biorefineries for biofuel upgrading: A critical review
Demirbas MF |
| S162 - S169 |
Ethanol production in (the) People's Republic of China: Potential and technologies
Li SZ, Chan-Halbrendt C |
| S170 - S177 |
Impacts of Thai bio-ethanol policy target on land use and greenhouse gas emissions
Silalertruksa T, Gheewala SH, Sagisaka M |
| S178 - S188 |
Economic, energy and environmental evaluations of biomass-based fuel ethanol projects based on life cycle assessment and simulation
Yu SR, Tao J |
| S189 - S196 |
Life cycle assessment of palm biodiesel: Revealing facts and benefits for sustainability
Yee KF, Tan KT, Abdullah AZ, Lee KT |
| S197 - S208 |
Energy consumption and GHG emissions of six biofuel pathways by LCA in (the) People's Republic of China
Ou XM, Zhang XL, Chang SY, Guo QF |
| S209 - S214 |
Full chain energy analysis of biodiesel production from palm oil in Thailand
Pleanjai S, Gheewala SH |
| S215 - S221 |
Bio-methanol potential in Indonesia: Forest biomass as a source of bio-energy that reduces carbon emissions
Suntana AS, Vogt KA, Turnblom EC, Upadhye R |
| S222 - S232 |
A strategy for introducing modern bioenergy into developing Asia to avoid dangerous climate change
Takeshita T |
| S233 - S237 |
Mechanisms of the stimulatory effects of rhamnolipid biosurfactant on rice straw hydrolysis
Zhang QZ, He GF, Wang J, Cai WM, Xu YT |
