FUEL CELL STACK

PROBLEM TO BE SOLVED: To provide a fuel cell stack having a simple and compact configuration and capable of surely preventing a temperature drop of an end-part power generation cell and successfully performing warming.SOLUTION: In a fuel cell stack 10, end plates 20a and 20b are disposed at both end...

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Hauptverfasser:	MIYAJIMA KAZUYOSHI, ASANO YUJI, OKANO TATSU, IWANARI TORU
Format:	Patent
Sprache:	eng ; jpn
Schlagworte:	BASIC ELECTRIC ELEMENTS ELECTRICITY PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSIONOF CHEMICAL INTO ELECTRICAL ENERGY
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creator	MIYAJIMA KAZUYOSHI ASANO YUJI OKANO TATSU IWANARI TORU
description	PROBLEM TO BE SOLVED: To provide a fuel cell stack having a simple and compact configuration and capable of surely preventing a temperature drop of an end-part power generation cell and successfully performing warming.SOLUTION: In a fuel cell stack 10, end plates 20a and 20b are disposed at both ends of a laminate 14 in which a plurality of power generating cells 12 are laminated via insulators 18a and 18b. The insulator 18b is provided with heat pipe structures 70a and 70b. A pair of light-receiving units 72a constituting the heat pipe structure 70a are inserted into a pair of cooling medium inlet communication holes 40a. The pair of heat-receiving units 72a extend along a surface direction parallel to a power generating surface of a power generating cell 12, and are integrally coupled to a heat radiating unit 74a which emits the heat received by each heat-receiving unit 72a. 【課題】簡単且つコンパクトな構成で、端部発電セルの温度低下を確実に阻止するとともに、暖機を良好に遂行することを可能にする。【解決手段】燃料電池スタック１０は、複数の発電セル１２が積層される積層体１４の両端部に、インシュレータ１８ａ、１８ｂを介してエンドプレート２０ａ、２０ｂが配設される。インシュレータ１８ｂには、ヒートパイプ構造体７０ａ、７０ｂが設けられる。ヒートパイプ構造体７０ａを構成する一対の受熱部７２ａは、一対の冷却媒体入口連通孔４０ａに挿入される。一対の受熱部７２ａは、発電セル１２の発電面に平行な面方向に沿って延在し、各受熱部７２ａで受熱した熱を放出する放熱部７４ａに一体に連結される。【選択図】図２
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The insulator 18b is provided with heat pipe structures 70a and 70b. A pair of light-receiving units 72a constituting the heat pipe structure 70a are inserted into a pair of cooling medium inlet communication holes 40a. 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The insulator 18b is provided with heat pipe structures 70a and 70b. A pair of light-receiving units 72a constituting the heat pipe structure 70a are inserted into a pair of cooling medium inlet communication holes 40a. 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The insulator 18b is provided with heat pipe structures 70a and 70b. A pair of light-receiving units 72a constituting the heat pipe structure 70a are inserted into a pair of cooling medium inlet communication holes 40a. The pair of heat-receiving units 72a extend along a surface direction parallel to a power generating surface of a power generating cell 12, and are integrally coupled to a heat radiating unit 74a which emits the heat received by each heat-receiving unit 72a. 【課題】簡単且つコンパクトな構成で、端部発電セルの温度低下を確実に阻止するとともに、暖機を良好に遂行することを可能にする。【解決手段】燃料電池スタック１０は、複数の発電セル１２が積層される積層体１４の両端部に、インシュレータ１８ａ、１８ｂを介してエンドプレート２０ａ、２０ｂが配設される。インシュレータ１８ｂには、ヒートパイプ構造体７０ａ、７０ｂが設けられる。ヒートパイプ構造体７０ａを構成する一対の受熱部７２ａは、一対の冷却媒体入口連通孔４０ａに挿入される。一対の受熱部７２ａは、発電セル１２の発電面に平行な面方向に沿って延在し、各受熱部７２ａで受熱した熱を放出する放熱部７４ａに一体に連結される。【選択図】図２</abstract><oa>free_for_read</oa></addata></record>
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subjects	BASIC ELECTRIC ELEMENTS ELECTRICITY PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSIONOF CHEMICAL INTO ELECTRICAL ENERGY
title	FUEL CELL STACK
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