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Potential of practical implementation of rice straw-based power generation in Thailand

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  • Suramaythangkoor, Tritib
  • Gheewala, Shabbir H.

Abstract

This paper uses life cycle assessment to evaluate the potential of rice straw power plant implementation in Thailand in terms of GHG emission savings from avoided open burning and from implementing rice straw power production, which can substitute that from natural gas. Annually, 8.5-14.3Â Mt rice straw burning contributes 5.0-8.6Â MtCO2-eq which could be converted to 786-1325Â MW of power, yielding a total greenhouse gas (GHG) reduction of 7.8-13.2Â MtCO2-eq. Moreover, 1090-1837Â Mm3 of natural gas could be substituted annually. A total of 25 provinces in central Thailand have potential to generate electricity with a total capacity of 210-292Â MW (plant efficiency 20-27%), resulting in an annual GHG emission savings of 2.3-2.6Â MtCO2-eq, and with a provincial capacity of over 20Â MW in 6 provinces, 10-20Â MW in 7 provinces, 1-10Â MW in 6 provinces and less than 1Â MW in 6 provinces.

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  • Suramaythangkoor, Tritib & Gheewala, Shabbir H., 2008. "Potential of practical implementation of rice straw-based power generation in Thailand," Energy Policy, Elsevier, vol. 36(8), pages 3183-3187, August.
    • Handle: RePEc:eee:enepol:v:36:y:2008:i:8:p:3183-3187
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    References listed on IDEAS

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    1. Prasertsan, S. & Sajjakulnukit, B., 2006. "Biomass and biogas energy in Thailand: Potential, opportunity and barriers," Renewable Energy, Elsevier, vol. 31(5), pages 599-610.
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    1. Shafie, S.M. & Mahlia, T.M.I. & Masjuki, H.H., 2013. "Life cycle assessment of rice straw co-firing with coal power generation in Malaysia," Energy, Elsevier, vol. 57(C), pages 284-294.
    2. Suramaythangkoor, Tritib & Gheewala, Shabbir H., 2010. "Potential alternatives of heat and power technology application using rice straw in Thailand," Applied Energy, Elsevier, vol. 87(1), pages 128-133, January.
    3. Shafie, S.M. & Masjuki, H.H. & Mahlia, T.M.I., 2014. "Life cycle assessment of rice straw-based power generation in Malaysia," Energy, Elsevier, vol. 70(C), pages 401-410.
    4. Chitawo, Maxon L. & Chimphango, Annie F.A., 2017. "A synergetic integration of bioenergy and rice production in rice farms," Renewable and Sustainable Energy Reviews, Elsevier, vol. 75(C), pages 58-67.
    5. Silalertruksa, Thapat & Gheewala, Shabbir H. & Sagisaka, Masayuki & Yamaguchi, Katsunobu, 2013. "Life cycle GHG analysis of rice straw bio-DME production and application in Thailand," Applied Energy, Elsevier, vol. 112(C), pages 560-567.
    6. Nygaard, Ivan & Dembelé, Filifing & Daou, Ibrahima & Mariko, Adama & Kamissoko, Famakan & Coulibaly, Nanourou & Borgstrøm, Rasmus L. & Bruun, Thilde Beck, 2016. "Lignocellulosic residues for production of electricity, biogas or second generation biofuel: A case study of technical and sustainable potential of rice straw in Mali," Renewable and Sustainable Energy Reviews, Elsevier, vol. 61(C), pages 202-212.
    7. Delivand, Mitra Kami & Barz, Mirko & Gheewala, Shabbir H. & Sajjakulnukit, Boonrod, 2011. "Economic feasibility assessment of rice straw utilization for electricity generating through combustion in Thailand," Applied Energy, Elsevier, vol. 88(11), pages 3651-3658.
    8. Darmawan, Arif & Fitrianto, Anggoro Cahyo & Aziz, Muhammad & Tokimatsu, Koji, 2018. "Integrated system of rice production and electricity generation," Applied Energy, Elsevier, vol. 220(C), pages 672-680.
    9. Hossain, Mokter, 2017. "Mapping the frugal innovation phenomenon," Technology in Society, Elsevier, vol. 51(C), pages 199-208.
    10. Delivand, Mitra Kami & Barz, Mirko & Gheewala, Shabbir H., 2011. "Logistics cost analysis of rice straw for biomass power generation in Thailand," Energy, Elsevier, vol. 36(3), pages 1435-1441.
    11. Shafie, S.M., 2016. "A review on paddy residue based power generation: Energy, environment and economic perspective," Renewable and Sustainable Energy Reviews, Elsevier, vol. 59(C), pages 1089-1100.
    12. Muench, Stefan & Guenther, Edeltraud, 2013. "A systematic review of bioenergy life cycle assessments," Applied Energy, Elsevier, vol. 112(C), pages 257-273.

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