Bifurcation Analysis of a Two-Phase PEMFC Model

Markus Grötsch; Richard Hanke-Rauschenbach; Michael Mangold

Source: Journal of Fuel Cell Science and Technology:;2008:;volume( 005 ):;issue: 002::page 21001

Author:

Markus Grötsch

Richard Hanke-Rauschenbach

Michael Mangold

DOI: 10.1115/1.2885392

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A major issue of polymer-electrolyte-membrane (PEM) fuel cell operation is the water management of the cells. This article tries to contribute to an improved understanding of flooding/drying out effects by performing a analysis for a rigorous two-phase PEM fuel cell model. The model is examined by means of a bifurcation analysis. This investigation is performed numerically with parameter continuation methods. The nonlinear behavior is qualified and possible instabilities are detected. A steady state multiplicity is found. The multiplicity is physically explained and the influence of selected fuel cell parameters is investigated. The multiplicity is finally verified in a dynamic simulation. The future work aims at a model reduction of the analyzed fuel cell model to gain a low order model suitable for model-based control strategies.

keyword(s): Fuel cells , Bifurcation , Catalysts , Proton exchange membrane fuel cells , Steady state , Water , Gas diffusion layers , Simulation , Permeability , Porosity , Equations , Anodes AND Membranes ,

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Bifurcation Analysis of a Two-Phase PEMFC Model

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Journal of Fuel Cell Science and Technology

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contributor author	Markus Grötsch
contributor author	Richard Hanke-Rauschenbach
contributor author	Michael Mangold
date accessioned	2017-05-09T00:28:43Z
date available	2017-05-09T00:28:43Z
date copyright	May, 2008
date issued	2008
identifier issn	2381-6872
identifier other	JFCSAU-28933#021001_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/138352
description abstract	A major issue of polymer-electrolyte-membrane (PEM) fuel cell operation is the water management of the cells. This article tries to contribute to an improved understanding of flooding/drying out effects by performing a analysis for a rigorous two-phase PEM fuel cell model. The model is examined by means of a bifurcation analysis. This investigation is performed numerically with parameter continuation methods. The nonlinear behavior is qualified and possible instabilities are detected. A steady state multiplicity is found. The multiplicity is physically explained and the influence of selected fuel cell parameters is investigated. The multiplicity is finally verified in a dynamic simulation. The future work aims at a model reduction of the analyzed fuel cell model to gain a low order model suitable for model-based control strategies.
publisher	The American Society of Mechanical Engineers (ASME)
title	Bifurcation Analysis of a Two-Phase PEMFC Model
type	Journal Paper
journal volume	5
journal issue	2
journal title	Journal of Fuel Cell Science and Technology
identifier doi	10.1115/1.2885392
journal fristpage	21001
identifier eissn	2381-6910
keywords	Fuel cells
keywords	Bifurcation
keywords	Catalysts
keywords	Proton exchange membrane fuel cells
keywords	Steady state
keywords	Water
keywords	Gas diffusion layers
keywords	Simulation
keywords	Permeability
keywords	Porosity
keywords	Equations
keywords	Anodes AND Membranes
tree	Journal of Fuel Cell Science and Technology:;2008:;volume( 005 ):;issue: 002
contenttype	Fulltext

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