Boundary model-based reference control of blower cooled high temperature polymer electrolyte membrane fuel cells

Hans-Christian Becker Jensen; Søren Knudsen Kær

doi:10.1016/j.ijhydene.2011.01.023

Boundary model-based reference control of blower cooled high temperature polymer electrolyte membrane fuel cells

Hans-Christian Becker Jensen, Søren Knudsen Kær

AAU Energy

Research output: Contribution to journal › Journal article › Research › peer-review

7 Citations (Scopus)

Abstract

Fuel cells have, by design, a limited effective life time, which depends on how they are operated. The general consent is that operation of the fuel cell at the extreme of the operational range, or operation of the fuel cell without sufficient reactants (a.k.a. starvation), will lower the effective life time of a fuel cell significantly. On air cooled HTPEMFCs, the blower, which supplies the fuel cell with oxygen for the chemical process, also functions as the cooling system. This makes the blower bi-functional and as a result a higher supply of oxygen is often available, hence changes in the fuel cell output can be optimised by the knowledge of how much oxygen is supplied to the fuel cell at any given time, without reducing the effective life time of a fuel cell by starvation.

Original language	English
Journal	International Journal of Hydrogen Energy
Volume	36
Issue number	8
Pages (from-to)	5030-5037
Number of pages	8
ISSN	0360-3199
DOIs	https://doi.org/10.1016/j.ijhydene.2011.01.023
Publication status	Published - Apr 2011

Keywords

Fuel cell
HT-PEM
Model-based
Dynamic load

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10.1016/j.ijhydene.2011.01.023

http://www.sciencedirect.com/science/article/pii/S0360319911000334

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title = "Boundary model-based reference control of blower cooled high temperature polymer electrolyte membrane fuel cells",

abstract = "Fuel cells have, by design, a limited effective life time, which depends on how they are operated. The general consent is that operation of the fuel cell at the extreme of the operational range, or operation of the fuel cell without sufficient reactants (a.k.a. starvation), will lower the effective life time of a fuel cell significantly. On air cooled HTPEMFCs, the blower, which supplies the fuel cell with oxygen for the chemical process, also functions as the cooling system. This makes the blower bi-functional and as a result a higher supply of oxygen is often available, hence changes in the fuel cell output can be optimised by the knowledge of how much oxygen is supplied to the fuel cell at any given time, without reducing the effective life time of a fuel cell by starvation.",

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T1 - Boundary model-based reference control of blower cooled high temperature polymer electrolyte membrane fuel cells

AU - Jensen, Hans-Christian Becker

AU - Kær, Søren Knudsen

PY - 2011/4

Y1 - 2011/4

N2 - Fuel cells have, by design, a limited effective life time, which depends on how they are operated. The general consent is that operation of the fuel cell at the extreme of the operational range, or operation of the fuel cell without sufficient reactants (a.k.a. starvation), will lower the effective life time of a fuel cell significantly. On air cooled HTPEMFCs, the blower, which supplies the fuel cell with oxygen for the chemical process, also functions as the cooling system. This makes the blower bi-functional and as a result a higher supply of oxygen is often available, hence changes in the fuel cell output can be optimised by the knowledge of how much oxygen is supplied to the fuel cell at any given time, without reducing the effective life time of a fuel cell by starvation.

AB - Fuel cells have, by design, a limited effective life time, which depends on how they are operated. The general consent is that operation of the fuel cell at the extreme of the operational range, or operation of the fuel cell without sufficient reactants (a.k.a. starvation), will lower the effective life time of a fuel cell significantly. On air cooled HTPEMFCs, the blower, which supplies the fuel cell with oxygen for the chemical process, also functions as the cooling system. This makes the blower bi-functional and as a result a higher supply of oxygen is often available, hence changes in the fuel cell output can be optimised by the knowledge of how much oxygen is supplied to the fuel cell at any given time, without reducing the effective life time of a fuel cell by starvation.

KW - Fuel cell

KW - HT-PEM

KW - Model-based

KW - Dynamic load

U2 - 10.1016/j.ijhydene.2011.01.023

DO - 10.1016/j.ijhydene.2011.01.023

M3 - Journal article

SN - 0360-3199

VL - 36

SP - 5030

EP - 5037

JO - International Journal of Hydrogen Energy

JF - International Journal of Hydrogen Energy

IS - 8

ER -

Boundary model-based reference control of blower cooled high temperature polymer electrolyte membrane fuel cells

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