Analysis of operating characteristics of a polymer electrolyte membrane fuel cell coupled with an air supply system

Balance-of-plant components, especially the air supply system, have a critical impact on the operating condition, performance, and reliability of polymer electrolyte fuel cells (PEMFCs). Thus, we investigated the performance and operating characteristics of a coupled system integrating a PEMFC and a...

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Published in	Journal of mechanical science and technology Vol. 25; no. 4; pp. 945 - 955
Main Authors	Ji, Seung Won, Myung, No Sung, Kim, Tong Seop
Format	Journal Article
Language	English
Published	Heidelberg Korean Society of Mechanical Engineers 01.04.2011 Springer Nature B.V 대한기계학회
Subjects	Air supplies Ambient temperature Applied sciences Balancing Control Convective and constrained heat transfer Dynamical Systems Electrolytes Energy Energy. Thermal use of fuels Engineering Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc Exact sciences and technology Fuel cells Fundamental areas of phenomenology (including applications) Heat transfer Industrial and Production Engineering Mass transfer Mechanical Engineering Membranes Physics Stacks Vibration 기계공학 Efficiency Polymer electrolyte membrane fuel cell (PEMFC) Voltage Humidity Blower Membrane humidifier Power Air feed Correlation Critical system Tube Performance characteristic Modeling Shell Membrane Coupling Proton exchange membrane fuel cells Fuel cell Balance of plant Operating reliability Polymer electrolytes Critical parameter Experimental study Operating conditions Thermal properties Heat mass transfer Room temperature
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ISSN	1738-494X 1976-3824
DOI	10.1007/s12206-011-0138-0

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Abstract	Balance-of-plant components, especially the air supply system, have a critical impact on the operating condition, performance, and reliability of polymer electrolyte fuel cells (PEMFCs). Thus, we investigated the performance and operating characteristics of a coupled system integrating a PEMFC and an air supply unit. The performance characteristics of the fuel cell stack were modeled using a semi-experimental correlation, and the operating characteristics of a shell-and-tube type membrane humidifier was modeled using heat and mass transfer principles. The models of both components were validated. A turbo-blower determined the condition of the air supplied to the humidifier and its characteristics were modeled using a performance map. A program was developed to simulate the operation of a PEMFC system consisting of the fuel cell stack and the air supply unit, and its operating characteristics at various conditions were investigated. In particular, the effects of operating conditions (ambient temperature and load) on the performance of both the humidifier and the fuel cell stack were examined, and the variations of critical operating parameters were analyzed.
AbstractList	Balance-of-plant components, especially the air supply system, have a critical impact on the operating condition, performance, and reliability of polymer electrolyte fuel cells (PEMFCs). Thus, we investigated the performance and operating characteristics of a coupled system integrating a PEMFC and an air supply unit. The performance characteristics of the fuel cell stack were modeled using a semiexperimental correlation, and the operating characteristics of a shell-and-tube type membrane humidifier was modeled using heat and mass transfer principles. The models of both components were validated. A turbo-blower determined the condition of the air supplied to the humidifier and its characteristics were modeled using a performance map. A program was developed to simulate the operation of a PEMFC system consisting of the fuel cell stack and the air supply unit, and its operating characteristics at various conditions were investigated. In particular, the effects of operating conditions (ambient temperature and load) on the performance of both the humidifier and the fuel cell stack were examined, and the variations of critical operating parameters were analyzed. KCI Citation Count: 8 Balance-of-plant components, especially the air supply system, have a critical impact on the operating condition, performance, and reliability of polymer electrolyte fuel cells (PEMFCs). Thus, we investigated the performance and operating characteristics of a coupled system integrating a PEMFC and an air supply unit. The performance characteristics of the fuel cell stack were modeled using a semi-experimental correlation, and the operating characteristics of a shell-and-tube type membrane humidifier was modeled using heat and mass transfer principles. The models of both components were validated. A turbo-blower determined the condition of the air supplied to the humidifier and its characteristics were modeled using a performance map. A program was developed to simulate the operation of a PEMFC system consisting of the fuel cell stack and the air supply unit, and its operating characteristics at various conditions were investigated. In particular, the effects of operating conditions (ambient temperature and load) on the performance of both the humidifier and the fuel cell stack were examined, and the variations of critical operating parameters were analyzed. Balance-of-plant components, especially the air supply system, have a critical impact on the operating condition, performance, and reliability of polymer electrolyte fuel cells (PEMFCs). Thus, we investigated the performance and operating characteristics of a coupled system integrating a PEMFC and an air supply unit. The performance characteristics of the fuel cell stack were modeled using a semi-experimental correlation, and the operating characteristics of a shell-and-tube type membrane humidifier was modeled using heat and mass transfer principles. The models of both components were validated. A turbo-blower determined the condition of the air supplied to the humidifier and its characteristics were modeled using a performance map. A program was developed to simulate the operation of a PEMFC system consisting of the fuel cell stack and the air supply unit, and its operating characteristics at various conditions were investigated. In particular, the effects of operating conditions (ambient temperature and load) on the performance of both the humidifier and the fuel cell stack were examined, and the variations of critical operating parameters were analyzed.[PUBLICATION ABSTRACT]
Author	Myung, No Sung Kim, Tong Seop Ji, Seung Won
Author_xml	– sequence: 1 givenname: Seung Won surname: Ji fullname: Ji, Seung Won organization: Graduate School, Inha University – sequence: 2 givenname: No Sung surname: Myung fullname: Myung, No Sung organization: Graduate School, Inha University – sequence: 3 givenname: Tong Seop surname: Kim fullname: Kim, Tong Seop email: kts@inha.ac.kr organization: Department of Mechanical Engineering, Inha University
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Keywords	Efficiency Polymer electrolyte membrane fuel cell (PEMFC) Voltage Humidity Blower Membrane humidifier Power Air feed Correlation Critical system Tube Performance characteristic Modeling Shell Membrane Coupling Proton exchange membrane fuel cells Fuel cell Balance of plant Operating reliability Polymer electrolytes Critical parameter Experimental study Operating conditions Thermal properties Heat mass transfer Room temperature
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SubjectTerms	Air supplies Ambient temperature Applied sciences Balancing Control Convective and constrained heat transfer Dynamical Systems Electrolytes Energy Energy. Thermal use of fuels Engineering Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc Exact sciences and technology Fuel cells Fundamental areas of phenomenology (including applications) Heat transfer Industrial and Production Engineering Mass transfer Mechanical Engineering Membranes Physics Stacks Vibration 기계공학
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Title	Analysis of operating characteristics of a polymer electrolyte membrane fuel cell coupled with an air supply system
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