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Woody biomass supply potential for thermal power plants in Japan

Author

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  • Kinoshita, Tsuguki
  • Ohki, Takashi
  • Yamagata, Yoshiki

Abstract

Biomass energy is one of mitigation method of CO2 reduction. In Japan, it aimed to reduce fossil fuels supply 670,000Â kL of crude oil equivalent in thermal power plants and 340,000Â kL of crude oil equivalent in the utilization of heat by biomass. It was decided to use 25% or more of the forestry products such as logging residues. Japanese government aim to supply 634Â PJ of woody biomass for power generation in 2010. This amount of energy accounts for 2.8% of total primary energy. More than 68% of Japan is covered by forests, and more than 40% of these forests are plantations. But the use of woody biomass is limited because it is still not seen as economically viable. In this article, we developed a large scale forestry economic model which can estimate the wood chips supply for coal thermal power plants across all around Japan. By using this model, wood chips supply potential is currently 32,000Â m3/year and supply will increase drastically when wood chips price increase or carbon credit is installed and we found that biomass production of 15Â PJ that is the numeric target of Japanese government is possible. Especially, the lengthening of rotation period of forestry and the decrease of wood chips transportation cost is important for wood chips use in coal thermal plant.

Suggested Citation

  • Kinoshita, Tsuguki & Ohki, Takashi & Yamagata, Yoshiki, 2010. "Woody biomass supply potential for thermal power plants in Japan," Applied Energy, Elsevier, vol. 87(9), pages 2923-2927, September.
    • Handle: RePEc:eee:appene:v:87:y:2010:i:9:p:2923-2927
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    References listed on IDEAS

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    1. Takashi Hayashi & Daisuke Sawauchi & Daisuke Kunii, 2017. "Forest Maintenance Practices and Wood Energy Alternatives to Increase Uses of Forest Resources in a Local Initiative in Nishiwaga, Iwate, Japan," Sustainability, MDPI, vol. 9(11), pages 1-13, October.
    2. Moriguchi, Kai, 2021. "Identifying optimal forest stand selection under subsidization using stand-level optimal harvesting schedules," Land Use Policy, Elsevier, vol. 108(C).
    3. Sosa, Amanda & Acuna, Mauricio & McDonnell, Kevin & Devlin, Ger, 2015. "Controlling moisture content and truck configurations to model and optimise biomass supply chain logistics in Ireland," Applied Energy, Elsevier, vol. 137(C), pages 338-351.
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    5. Nunes, L.J.R. & Matias, J.C.O. & Catalão, J.P.S., 2014. "A review on torrefied biomass pellets as a sustainable alternative to coal in power generation," Renewable and Sustainable Energy Reviews, Elsevier, vol. 40(C), pages 153-160.
    6. Nikodinoska, Natasha & Buonocore, Elvira & Paletto, Alessandro & Franzese, Pier Paolo, 2017. "Wood-based bioenergy value chain in mountain urban districts: An integrated environmental accounting framework," Applied Energy, Elsevier, vol. 186(P2), pages 197-210.
    7. Battuvshin, Biligt & Matsuoka, Yusuke & Shirasawa, Hiroaki & Toyama, Keisuke & Hayashi, Uichi & Aruga, Kazuhiro, 2020. "Supply potential and annual availability of timber and forest biomass resources for energy considering inter-prefectural trade in Japan," Land Use Policy, Elsevier, vol. 97(C).
    8. Roni, Mohammad S. & Chowdhury, Sudipta & Mamun, Saleh & Marufuzzaman, Mohammad & Lein, William & Johnson, Samuel, 2017. "Biomass co-firing technology with policies, challenges, and opportunities: A global review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 78(C), pages 1089-1101.
    9. Kuznetsov, G.V. & Nigay, N.A. & Syrodoy, S.V. & Gutareva, N. Yu & Malyshev, D. Yu, 2022. "A comparative analysis of the characteristics of the water removal processes in preparation for incineration of typical wood waste and forest combustible materials," Energy, Elsevier, vol. 239(PE).
    10. Toka, Agorasti & Iakovou, Eleftherios & Vlachos, Dimitrios & Tsolakis, Naoum & Grigoriadou, Anastasia-Loukia, 2014. "Managing the diffusion of biomass in the residential energy sector: An illustrative real-world case study," Applied Energy, Elsevier, vol. 129(C), pages 56-69.
    11. Devlin, Ger & Talbot, Bruce, 2014. "Deriving cooperative biomass resource transport supply strategies in meeting co-firing energy regulations: A case for peat and wood fibre in Ireland," Applied Energy, Elsevier, vol. 113(C), pages 1700-1709.
    12. Mobini, Mahdi & Sowlati, Taraneh & Sokhansanj, Shahab, 2011. "Forest biomass supply logistics for a power plant using the discrete-event simulation approach," Applied Energy, Elsevier, vol. 88(4), pages 1241-1250, April.

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