Relation between water adsorption in polymer-electrolyte fuel cell and its electric power

•The amount of H2O adsorbed on a Nafion® 117 membrane under electricity generation is correlated as a function of its vapor pressure and temperature.•The amount of H2O adsorbed on the membrane is correlated whether the membrane is under a compression state or not.•The adsorption amount behaves diffe...

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Veröffentlicht in:	Energy conversion and management 2013-07, Vol.71, p.126-130
Hauptverfasser:	Fukada, Satoshi, Ohba, Kazuto, Nomura, Atsushi
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Sprache:	eng
Schlagworte:	Adsorption Applied sciences Compression of membrane Electric current Electric potential Electric power Electric power generation Energy Energy. Thermal use of fuels Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc Exact sciences and technology Fuel cell Fuel cells Membranes Polymer electrolyte membrane Relative humidity Vapor pressure Water vapor adsorption
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container_title	Energy conversion and management
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creator	Fukada, Satoshi Ohba, Kazuto Nomura, Atsushi
description	•The amount of H2O adsorbed on a Nafion® 117 membrane under electricity generation is correlated as a function of its vapor pressure and temperature.•The amount of H2O adsorbed on the membrane is correlated whether the membrane is under a compression state or not.•The adsorption amount behaves differently under the condition where the membrane is compressed by an outside frame.•The difference in H2O adsorption amount between mounted and unmounted states is explained based on force acting on the membrane.•Relation between electric conductivity and adsorption amount of membrane is clarified. The amount of H2O adsorbed on a Nafion® 117 membrane mounted inside a polymer-electrolyte fuel cell (PEFC) system is determined as a function of temperature and H2O vapor pressure. Its experimental values are related with a product of electric current and terminal voltage when the anode and cathode compartments are supplied with partially moist (0% to 90% in relative humidity) H2 and O2 gases at atmospheric pressure, respectively. Under conditions of H2O vapor pressure lower than 2×104Pa, the amount of H2O adsorbed on the membrane mounted inside the PEFC module is near to its original one that was determined under an unfixed force-free condition, where it is not mounted in cell. However, under conditions of H2O vapor pressure higher than 2×104Pa, the adsorption amount under the mounted state becomes smaller than its original value determined under the unfixed force-free state. At the higher vapor pressure, the electric power generated under the mounted state also becomes lower than its value expected from the adsorption amount under the unfixed state. Thus, it is experimentally clarified that the FC power is deeply related with the amount of H2O adsorbed on the membrane. The H2O adsorption amount depends on whether it is compressed in a FC by an outside mold or not.
doi_str_mv	10.1016/j.enconman.2013.03.023
format	Article
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The amount of H2O adsorbed on a Nafion® 117 membrane mounted inside a polymer-electrolyte fuel cell (PEFC) system is determined as a function of temperature and H2O vapor pressure. Its experimental values are related with a product of electric current and terminal voltage when the anode and cathode compartments are supplied with partially moist (0% to 90% in relative humidity) H2 and O2 gases at atmospheric pressure, respectively. Under conditions of H2O vapor pressure lower than 2×104Pa, the amount of H2O adsorbed on the membrane mounted inside the PEFC module is near to its original one that was determined under an unfixed force-free condition, where it is not mounted in cell. However, under conditions of H2O vapor pressure higher than 2×104Pa, the adsorption amount under the mounted state becomes smaller than its original value determined under the unfixed force-free state. At the higher vapor pressure, the electric power generated under the mounted state also becomes lower than its value expected from the adsorption amount under the unfixed state. Thus, it is experimentally clarified that the FC power is deeply related with the amount of H2O adsorbed on the membrane. The H2O adsorption amount depends on whether it is compressed in a FC by an outside mold or not.</description><identifier>ISSN: 0196-8904</identifier><identifier>EISSN: 1879-2227</identifier><identifier>DOI: 10.1016/j.enconman.2013.03.023</identifier><identifier>CODEN: ECMADL</identifier><language>eng</language><publisher>Kidlington: Elsevier Ltd</publisher><subject>Adsorption ; Applied sciences ; Compression of membrane ; Electric current ; Electric potential ; Electric power ; Electric power generation ; Energy ; Energy. 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The amount of H2O adsorbed on a Nafion® 117 membrane mounted inside a polymer-electrolyte fuel cell (PEFC) system is determined as a function of temperature and H2O vapor pressure. Its experimental values are related with a product of electric current and terminal voltage when the anode and cathode compartments are supplied with partially moist (0% to 90% in relative humidity) H2 and O2 gases at atmospheric pressure, respectively. Under conditions of H2O vapor pressure lower than 2×104Pa, the amount of H2O adsorbed on the membrane mounted inside the PEFC module is near to its original one that was determined under an unfixed force-free condition, where it is not mounted in cell. However, under conditions of H2O vapor pressure higher than 2×104Pa, the adsorption amount under the mounted state becomes smaller than its original value determined under the unfixed force-free state. 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source	ScienceDirect Journals (5 years ago - present)
subjects	Adsorption Applied sciences Compression of membrane Electric current Electric potential Electric power Electric power generation Energy Energy. Thermal use of fuels Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc Exact sciences and technology Fuel cell Fuel cells Membranes Polymer electrolyte membrane Relative humidity Vapor pressure Water vapor adsorption
title	Relation between water adsorption in polymer-electrolyte fuel cell and its electric power
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