Control-Oriented Modeling and Analysis for Automotive Fuel Cell Systems

Jay T.  Pukrushpan; Huei  Peng; Anna G.  Stefanopoulou

Source: Journal of Dynamic Systems, Measurement, and Control:;2004:;volume( 126 ):;issue: 001::page 14

Author:

Jay T. Pukrushpan

Huei Peng

Anna G. Stefanopoulou

DOI: 10.1115/1.1648308

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Fuel Cells are electrochemical devices that convert the chemical energy of a gaseous fuel directly into electricity. They are widely regarded as a potential future stationary and mobile power source. The response of a fuel cell system depends on the air and hydrogen feed, flow and pressure regulation, and heat and water management. In this paper, we develop a dynamic model suitable for the control study of fuel cell systems. The transient phenomena captured in the model include the flow and inertia dynamics of the compressor, the manifold filling dynamics (both anode and cathode), reactant partial pressures, and membrane humidity. It is important to note, however, that the fuel cell stack temperature is treated as a parameter rather than a state variable of this model because of its long time constant. Limitations and several possible applications of this model are presented.

keyword(s): Pressure , Flow (Dynamics) , Temperature , Electric potential , Anodes , Compressors , Fuel cells , Manifolds , Membranes , Water , Equations AND Hydrogen ,

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Control-Oriented Modeling and Analysis for Automotive Fuel Cell Systems

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contributor author	Jay T. Pukrushpan
contributor author	Huei Peng
contributor author	Anna G. Stefanopoulou
date accessioned	2017-05-09T00:12:38Z
date available	2017-05-09T00:12:38Z
date copyright	March, 2004
date issued	2004
identifier issn	0022-0434
identifier other	JDSMAA-26327#14_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/129798
description abstract	Fuel Cells are electrochemical devices that convert the chemical energy of a gaseous fuel directly into electricity. They are widely regarded as a potential future stationary and mobile power source. The response of a fuel cell system depends on the air and hydrogen feed, flow and pressure regulation, and heat and water management. In this paper, we develop a dynamic model suitable for the control study of fuel cell systems. The transient phenomena captured in the model include the flow and inertia dynamics of the compressor, the manifold filling dynamics (both anode and cathode), reactant partial pressures, and membrane humidity. It is important to note, however, that the fuel cell stack temperature is treated as a parameter rather than a state variable of this model because of its long time constant. Limitations and several possible applications of this model are presented.
publisher	The American Society of Mechanical Engineers (ASME)
title	Control-Oriented Modeling and Analysis for Automotive Fuel Cell Systems
type	Journal Paper
journal volume	126
journal issue	1
journal title	Journal of Dynamic Systems, Measurement, and Control
identifier doi	10.1115/1.1648308
journal fristpage	14
journal lastpage	25
identifier eissn	1528-9028
keywords	Pressure
keywords	Flow (Dynamics)
keywords	Temperature
keywords	Electric potential
keywords	Anodes
keywords	Compressors
keywords	Fuel cells
keywords	Manifolds
keywords	Membranes
keywords	Water
keywords	Equations AND Hydrogen
tree	Journal of Dynamic Systems, Measurement, and Control:;2004:;volume( 126 ):;issue: 001
contenttype	Fulltext

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