Evaporative cooling in polymer electrolyte fuel cell

Shimotori, S; Sonai, A

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Evaporative cooling in polymer electrolyte fuel cell

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Abstract

The concept of the evaporative cooling for the internally humidified PEFC was confirmed by the experiment. The evaporative cooling rates at the anode and the cathode were mastered under the various temperatures and air utilizations. At a high temperature the proportion of the evaporative cooling rate to the heat generation rate got higher, the possibility of the evaporative cooling was demonstrated. 2 refs., 7 figs., 1 tab.

Authors:

Shimotori, S; Sonai, A ^[1]

Toshiba Corp. Tokyo (Japan)

Publication Date:

Jun 05, 1996

Product Type:

Journal Article

Reference Number:

SCA: 300503; PA: NEDO-96:913050; EDB-96:149823; SN: 96001672536

Resource Relation:

Journal Name: Denki Kagaku Oyobi Kogyo Butsuri Kagaku (Electrochemistry and Industrial Physical Chemistry); Journal Volume: 64; Journal Issue: 6; Other Information: PBD: 5 Jun 1996

Subject:

30 DIRECT ENERGY CONVERSION; SOLID ELECTROLYTE FUEL CELLS; POLYMERS; COOLING; EVAPORATION; HUMIDITY CONTROL; ANODES; CATHODES; MEMBRANES; ELECTRODES; PERMEABILITY; POROUS MATERIALS; TEMPERATURE DEPENDENCE

OSTI ID:

375525

Country of Origin:

Japan

Language:

English

Other Identifying Numbers:

Journal ID: DKOKAZ; ISSN 0366-9297; TRN: 96:913050

Submitting Site:

NEDO

Size:

pp. 706-710

Announcement Date:

Oct 17, 1996

Citation Formats

Shimotori, S, and Sonai, A. Evaporative cooling in polymer electrolyte fuel cell. Japan: N. p., 1996. Web.

Shimotori, S, & Sonai, A. Evaporative cooling in polymer electrolyte fuel cell. Japan.

Shimotori, S, and Sonai, A. 1996. "Evaporative cooling in polymer electrolyte fuel cell." Japan.

@misc{etde_375525,
title = {Evaporative cooling in polymer electrolyte fuel cell}
author = {Shimotori, S, and Sonai, A}
abstractNote = {The concept of the evaporative cooling for the internally humidified PEFC was confirmed by the experiment. The evaporative cooling rates at the anode and the cathode were mastered under the various temperatures and air utilizations. At a high temperature the proportion of the evaporative cooling rate to the heat generation rate got higher, the possibility of the evaporative cooling was demonstrated. 2 refs., 7 figs., 1 tab.}
journal = []
issue = {6}
volume = {64}
journal type = {AC}
place = {Japan}
year = {1996}
month = {Jun}
}

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