Development of active breathing micro PEM fuel cell

Air-breathing proton exchange membrane fuel cells (AB-PEMFCs) can reduce the cost, complexity, noise, volume, and weight of fuel cells and can enhance their reliability. However, such cells are still typically characterized by low output power densities. In this study, to overcome the inherent weakn...

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Published in	International Journal of Precision Engineering and Manufacturing-Green Technology, 1(2) Vol. 1; no. 2; pp. 101 - 106
Main Authors	Seo, Young Ho, Kim, Hyung Jin, Jang, Woong Ki, Kim, Byeong Hee
Format	Journal Article
Language	English
Published	Springer Korean Society for Precision Engineering 01.04.2014 Springer Nature B.V 한국정밀공학회
Subjects	Breathing Diaphragms Energy Efficiency Engineering Flow rates Flow velocity Fuel cells Fuel technology Industrial and Production Engineering Lead zirconate titanates Maximum power density Noise reduction Outlet channels Power consumption Product development Proton exchange membrane fuel cells Sustainable Development Synthetic jets Weight reduction 기계공학 Balance of plant (BOP) Planar PEM fuel cells (PEMFCs) Air breathing Synthetic jet breather
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ISSN	2288-6206 2198-0810
DOI	10.1007/s40684-014-0014-3

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Abstract	Air-breathing proton exchange membrane fuel cells (AB-PEMFCs) can reduce the cost, complexity, noise, volume, and weight of fuel cells and can enhance their reliability. However, such cells are still typically characterized by low output power densities. In this study, to overcome the inherent weaknesses of low power density and oxygen concentration without mobility loss, we have adopted a microscale synthetic jet air breather (a crucial balance-of-plant device), which supplies air to the cathode side of the flow field of a planar AB-PEMFC. A synthetic jet air breather consists of a PZT diaphragm actuator, small cylindrical cavity, inlet and outlet channels, and a pump body. The flow rate of the fabricated synthetic jet air breather is more than 400 cc/min at 550 Hz with a power consumption of less than 0.3 W. An AB-PEMFC equipped with a microscale-synthetic jet air breather shows higher performance and stability, obtaining a maximum power density of 188 mW/cm 2 at 400 mA/cm 2 .
AbstractList	Air-breathing proton exchange membrane fuel cells (AB-PEMFCs) can reduce the cost, complexity, noise, volume, and weight of fuel cells and can enhance their reliability. However, such cells are still typically characterized by low output power densities. In this study, to overcome the inherent weaknesses of low power density and oxygen concentration without mobility loss, we have adopted a microscale synthetic jet air breather (a crucial balance-of-plant device), which supplies air to the cathode side of the flow field of a planar AB-PEMFC. A synthetic jet air breather consists of a PZT diaphragm actuator, small cylindrical cavity, inlet and outlet channels, and a pump body. The flow rate of the fabricated synthetic jet air breather is more than 400 cc/min at 550 Hz with a power consumption of less than 0.3 W. An AB-PEMFC equipped with a microscale-synthetic jet air breather shows higher performance and stability, obtaining a maximum power density of 188 mW/cm2 at 400 mA/cm2. Air-breathing proton exchange membrane fuel cells (AB-PEMFCs) can reduce the cost, complexity, noise, volume, and weight of fuel cells and can enhance their reliability. However, such cells are still typically characterized by low output power densities. In this study, to overcome the inherent weaknesses of low power density and oxygen concentration without mobility loss, we have adopted a microscale synthetic jet air breather (a crucial balance-of-plant device), which supplies air to the cathode side of the flow field of a planar AB-PEMFC. A synthetic jet air breather consists of a PZT diaphragm actuator, small cylindrical cavity, inlet and outlet channels, and a pump body. The flow rate of the fabricated synthetic jet air breather is more than 400 cc/min at 550 Hz with a power consumption of less than 0.3 W. An AB-PEMFC equipped with a microscale-synthetic jet air breather shows higher performance and stability, obtaining a maximum power density of 188 mW/cm2 at 400 mA/cm2. KCI Citation Count: 15 Air-breathing proton exchange membrane fuel cells (AB-PEMFCs) can reduce the cost, complexity, noise, volume, and weight of fuel cells and can enhance their reliability. However, such cells are still typically characterized by low output power densities. In this study, to overcome the inherent weaknesses of low power density and oxygen concentration without mobility loss, we have adopted a microscale synthetic jet air breather (a crucial balance-of-plant device), which supplies air to the cathode side of the flow field of a planar AB-PEMFC. A synthetic jet air breather consists of a PZT diaphragm actuator, small cylindrical cavity, inlet and outlet channels, and a pump body. The flow rate of the fabricated synthetic jet air breather is more than 400 cc/min at 550 Hz with a power consumption of less than 0.3 W. An AB-PEMFC equipped with a microscale-synthetic jet air breather shows higher performance and stability, obtaining a maximum power density of 188 mW/cm 2 at 400 mA/cm 2 .
Author	Seo, Young Ho Jang, Woong Ki Kim, Hyung Jin Kim, Byeong Hee
Author_xml	– sequence: 1 givenname: Young Ho surname: Seo fullname: Seo, Young Ho organization: Department of Mechanical and Mechatronic Engineering, Kangwon National University – sequence: 2 givenname: Hyung Jin surname: Kim fullname: Kim, Hyung Jin organization: Department of Mechanical and Mechatronic Engineering, Kangwon National University – sequence: 3 givenname: Woong Ki surname: Jang fullname: Jang, Woong Ki organization: Department of Mechanical and Mechatronic Engineering, Kangwon National University – sequence: 4 givenname: Byeong Hee surname: Kim fullname: Kim, Byeong Hee email: kbh@kangwon.ac.kr organization: Department of Mechanical and Mechatronic Engineering, Kangwon National University
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Keywords	Balance of plant (BOP) Planar PEM fuel cells (PEMFCs) Air breathing Synthetic jet breather
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SubjectTerms	Breathing Diaphragms Energy Efficiency Engineering Flow rates Flow velocity Fuel cells Fuel technology Industrial and Production Engineering Lead zirconate titanates Maximum power density Noise reduction Outlet channels Power consumption Product development Proton exchange membrane fuel cells Sustainable Development Synthetic jets Weight reduction 기계공학
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Title	Development of active breathing micro PEM fuel cell
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ispartofPNX	International Journal of Precision Engineering and Manufacturing-Green Technology, 2014, 1(2), , pp.101-106
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