Thermal and Start-Up Characteristics of a Miniature Passive Liquid Feed DMFC System, Including Continuous/Discontinuous Phase Limitations

Jeremy Rice; Amir Faghri

Source: Journal of Heat Transfer:;2008:;volume( 130 ):;issue: 006::page 62001

Author:

Jeremy Rice

Amir Faghri

DOI: 10.1115/1.2891156

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The thermal and start-up characteristics of a passive direct methanol fuel cell system are simulated using a numerical model. The model captures both the thermal characteristics of the fuel cell and the passive fuel delivery system using a multifluid model approach. Since the fuel cell is run without any active temperature control, the temperature may rise until the convective and evaporative cooling effects balance the heat produced in the chemical reactions. The cell temperature can vary as much as 20°C, and it is vital to model the thermal effects for accurate results. The numerical model also includes continuous and discontinuous phase limitations, as well as a probabilistic spread of the porous properties. These added physical characteristics qualitatively portray the departure of carbon dioxide from the anode side of the fuel cell.

keyword(s): Pressure , Temperature , Anodes , Direct methanol fuel cells , Equations , Water , Methanol , Fuel cells , Computer simulation , Fuel delivery systems , Carbon dioxide , Electric potential , Polarization (Electricity) , Heat , Mass transfer AND Temperature effects ,

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Thermal and Start-Up Characteristics of a Miniature Passive Liquid Feed DMFC System, Including Continuous/Discontinuous Phase Limitations

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contributor author	Jeremy Rice
contributor author	Amir Faghri
date accessioned	2017-05-09T00:29:04Z
date available	2017-05-09T00:29:04Z
date copyright	June, 2008
date issued	2008
identifier issn	0022-1481
identifier other	JHTRAO-27838#062001_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/138546
description abstract	The thermal and start-up characteristics of a passive direct methanol fuel cell system are simulated using a numerical model. The model captures both the thermal characteristics of the fuel cell and the passive fuel delivery system using a multifluid model approach. Since the fuel cell is run without any active temperature control, the temperature may rise until the convective and evaporative cooling effects balance the heat produced in the chemical reactions. The cell temperature can vary as much as 20°C, and it is vital to model the thermal effects for accurate results. The numerical model also includes continuous and discontinuous phase limitations, as well as a probabilistic spread of the porous properties. These added physical characteristics qualitatively portray the departure of carbon dioxide from the anode side of the fuel cell.
publisher	The American Society of Mechanical Engineers (ASME)
title	Thermal and Start-Up Characteristics of a Miniature Passive Liquid Feed DMFC System, Including Continuous/Discontinuous Phase Limitations
type	Journal Paper
journal volume	130
journal issue	6
journal title	Journal of Heat Transfer
identifier doi	10.1115/1.2891156
journal fristpage	62001
identifier eissn	1528-8943
keywords	Pressure
keywords	Temperature
keywords	Anodes
keywords	Direct methanol fuel cells
keywords	Equations
keywords	Water
keywords	Methanol
keywords	Fuel cells
keywords	Computer simulation
keywords	Fuel delivery systems
keywords	Carbon dioxide
keywords	Electric potential
keywords	Polarization (Electricity)
keywords	Heat
keywords	Mass transfer AND Temperature effects
tree	Journal of Heat Transfer:;2008:;volume( 130 ):;issue: 006
contenttype	Fulltext

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