A304 DEVELOPMENT OF AN ENVIRONMENT SYMBIOTIC MICRO COGENERATION SYSTEM FOR SUSTAINABLE MARINE CITY
スポンサーリンク
概要
- 論文の詳細を見る
Feasibility of a novel environment symbiotic micro cogeneration system for residential purpose has been investigated for Sustainable Marine City that we call SuMaC. SuMaC is a fictitious reclaimed island (800-900 ha) on Osaka bay coastal zone with 39,000 residents. Thermodynamic analysis was carried out for the micro cogeneration systems consisting of a micro gas turbine, a micro gas engine and a polymer electrolyte fuel cell as topping and a single effect absorption chiller as a bottoming, in which natural energies are highly utilized. And their performances and efficiencies were predicted quantitatively. Total efficiency of the system exceeds 80% when the micro gas turbine or micro gas engine was used as a prime mover. And feasibility of the proposed environment symbiotic micro cogeneration system was verified by computer simulation.
- 一般社団法人日本機械学会の論文
著者
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Fujii Yoshiyuki
Graduate School Of Mechanical Engineering Osaka City University
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NISHIMURA Nobuya
Department of Mechanical Engineering, Osaka City University
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NOMURA Tomohiro
Department of Mechanical Engineering, Osaka City University
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IYOTA Hiroyuki
Department of Mechanical Engineering, Osaka City University
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SAKAGUCHI Takatoshi
Graduate School of Mechanical Engineering, Osaka City University
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Iyota Hiroyuki
Department Of Mechanical And Physical Engineering Osaka City University
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Nomura Tomohiro
Dept. Of Mech. Eng. Osaka City University
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Nishimura Nobuya
Department Of Mechanical And Physical Engineering Osaka City University
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Sakaguchi Takatoshi
Graduate School Of Mechanical Engineering Osaka City University
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Nishimura Nobuya
Dept. Of Mech. Eng. Osaka City University
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Iyota Hiroyuki
Dept. Of Mech. Eng. Osaka City University
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NOMURA Tomohiro
Department of Mechanical and Physical Engineering, Graduate School of Engineering, Osaka City University
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- A304 DEVELOPMENT OF AN ENVIRONMENT SYMBIOTIC MICRO COGENERATION SYSTEM FOR SUSTAINABLE MARINE CITY
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