Purge Scheduling for Dead-Ended Anode Operation of PEM Fuel Cells

Advances in the design and control of polymer electrolyte membrane (PEM) fuel cells (FCs) are necessary to significantly improve their durability and reduce their cost for large-scale commercial automotive“73605_C005” — #2applications. Degradation has been observed and is associated with undesired r...

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Bibliographic Details
Published inThe Control Handbook pp. 165 - 208
Format Book Chapter
LanguageEnglish
Published United Kingdom CRC Press 2011
Taylor & Francis Group
Subjects
Electronics engineering
ENVIRONMENTAL ENGINEERING & TECHNOLOGY
SCIENCE: GENERAL ISSUES
Cathode Channel
Liquid Water Mass
Front Location
Water Accumulation
Fuel Cell Stack
Cl
MPC Application
MLD Model
GDL
Cathode Inlet
MPC Controller
Electro-osmotic Drag
Anode Channel
Liquid Water Accumulation
Hybrid Automaton
MPC Law
PWA Model
Membrane Water
Liquid Water
Sa Tu
Cathode GDL
Current Density
PEM
Membrane Water Content
FC
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ISBN9781420073607
1420073605
DOI10.1201/b10382-12

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Summary:Advances in the design and control of polymer electrolyte membrane (PEM) fuel cells (FCs) are necessary to significantly improve their durability and reduce their cost for large-scale commercial automotive“73605_C005” — #2applications. Degradation has been observed and is associated with undesired reactions which occur during load following and start-up conditions. This degradation is accelerated by the varying spatiotemporal profiles caused by the local buildup of liquid water [1,2]. It is therefore desirable to avoid the accumulation of water and flooding or plugging of the channels, due to its deleterious effects on performance and stack life. Anode channel plugging, for example, can induce hydrogen starvation and, given the right conditions, trigger cathode-carbon oxidation and loss of active catalyst area [3-5].
ISBN:9781420073607
1420073605
DOI:10.1201/b10382-12