DocumentCode
1663853
Title
The Distribution Design of PEM Fuel Cell Cogeneration
Author
Obara, Shin´ya ; Kudo, Kazuhiko
Author_Institution
Tomakomai Nat. Coll. of Technol.
fYear
2005
Firstpage
873
Lastpage
880
Abstract
The capacity reduction of a solid-polymer-membrane-type fuel cell (PEFC) with a reformer by load leveling and by improving the efficiency of part-load operation of the reformer is considered. When electric power demand of the building is small, a part of electric power generated by the fuel cell is supplied to a water electrolysis device, and hydrogen and oxygen gases are generated. And time is shifted and gases are supplied to a fuel cell. Consequently, compared with the conventional system, reduction of 40% of fuel cell capacity is expected. As the 2nd review, route planning program of hot water piping of a fuel-cell-energy-network for fuel cell central system and distributed system was developed. The hot-water piping route planning program of fuel cell network was developed by using genetic algorithm based on the view of TSP (traveling salesman problem)
Keywords
electrolysis; energy conservation; fuel cell power plants; genetic algorithms; hydrogen; oxygen; pipelines; planning; travelling salesman problems; PEM fuel cell cogeneration; TSP; distribution design; electric power demand; electric power generation; energy saving; gas supply; genetic algorithm; hot water piping; hydrogen gas; load leveling; oxygen gas; power plant; reformer; route planning program; solid-polymer-membrane-type fuel cell; traveling salesman problem; water electrolysis device; Batteries; Character generation; Cities and towns; Cogeneration; Electrochemical processes; Fuel cells; Hydrogen; Power generation; Power system planning; Water heating; Energy Saving; Fuel Cell; Optimum Design; Power Plant; Route Planning;
fLanguage
English
Publisher
ieee
Conference_Titel
Environmentally Conscious Design and Inverse Manufacturing, 2005. Eco Design 2005. Fourth International Symposium on
Conference_Location
Tokyo
Print_ISBN
1-4244-0081-3
Type
conf
DOI
10.1109/ECODIM.2005.1619370
Filename
1619370
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