Effect of Gas Dilution on PEM Fuel Cell Performance and Impedance Response
Identifieur interne : 001294 ( Main/Exploration ); précédent : 001293; suivant : 001295Effect of Gas Dilution on PEM Fuel Cell Performance and Impedance Response
Auteurs : M. Boillot [France] ; C. Bonnet [France] ; N. Jatroudakis [France] ; P. Carre [France] ; S. Didierjean [France] ; François Lapicque [France]Source :
- Fuel Cells [ 1615-6846 ] ; 2006-02.
Descripteurs français
- Wicri :
- topic : Pile à combustible.
English descriptors
- KwdEn :
- Acta, Active layer, Anode response, Anode side, Capacitance, Carbon dioxide, Carbon monoxide, Cathode side, Cell temperature, Cell voltage, Characteristic frequency, Charge transfer resistance, Charge transfer resistance rcta, Constant phase element, Current density, Diffusion coefficient, Diffusion layer thickness, Dilution, Dilution rate, Dilution rates, Electroanalytical chemistry, Electrochemical society, Electrochimica, Electrochimica acta, Equivalent circuit, Experimental data, Flow meters, Flow rate, Frequency loop, Fuel cell, Fuel cell performance, Fuel cells, Good agreement, High frequencies, High frequency loop, Humidification conditions, Humidification temperatures, Hydrogen content, Hydrogen dilution, Hydrogen oxidation, Imaginary part, Impedance, Impedance response, Impedance spectra, Impedance spectroscopy, Liquid water, Lower performance, Medium frequency loop, Medium frequency loops, Ohmic resistance, Original research paper, Original research paper boillot, Outlet gases, Oxygen dilution, Oxygen reduction, Partial pressure, Power sources, Pseudo capacitance, Pure hydrogen, Pure oxygen, Real part, Reference electrode, Relative humidity, Stoichiometric, Stoichiometric factor, Tafel slope, Verlag gmbh, Water balance, Weinheim fuel cells.
- Teeft :
- Acta, Active layer, Anode response, Anode side, Capacitance, Carbon dioxide, Carbon monoxide, Cathode side, Cell temperature, Cell voltage, Characteristic frequency, Charge transfer resistance, Charge transfer resistance rcta, Constant phase element, Current density, Diffusion coefficient, Diffusion layer thickness, Dilution, Dilution rate, Dilution rates, Electroanalytical chemistry, Electrochemical society, Electrochimica, Electrochimica acta, Equivalent circuit, Experimental data, Flow meters, Flow rate, Frequency loop, Fuel cell, Fuel cell performance, Fuel cells, Good agreement, High frequencies, High frequency loop, Humidification conditions, Humidification temperatures, Hydrogen content, Hydrogen dilution, Hydrogen oxidation, Imaginary part, Impedance, Impedance response, Impedance spectra, Impedance spectroscopy, Liquid water, Lower performance, Medium frequency loop, Medium frequency loops, Ohmic resistance, Original research paper, Original research paper boillot, Outlet gases, Oxygen dilution, Oxygen reduction, Partial pressure, Power sources, Pseudo capacitance, Pure hydrogen, Pure oxygen, Real part, Reference electrode, Relative humidity, Stoichiometric, Stoichiometric factor, Tafel slope, Verlag gmbh, Water balance, Weinheim fuel cells.
Abstract
In this work, an experimental study of gas dilution on the performance of a polymer electrolyte membrane (PEM) fuel cell was carried out. Impedance spectra were analysed depending on the dilution of either hydrogen or oxygen by nitrogen. By comparison of the impedance spectra obtained, the three loops were attributed to hydrogen oxidation, oxygen reduction and a low frequency diffusion process. Hydrogen oxidation was shown to be more complicated when the anode side was fed by a simulated reforming gas than with the same dilution rate with nitrogen.
Url:
DOI: 10.1002/fuce.200500101
Affiliations:
- France
- Grand Est, Lorraine (région)
- Nancy, Vandoeuvre les Nancy
- Centre national de la recherche scientifique, Laboratoire réactions et génie des procédés, Université de Lorraine
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unit="page" to="37">37</biblScope><biblScope unit="page-count">7</biblScope><publisher>WILEY‐VCH Verlag</publisher><pubPlace>Weinheim</pubPlace><date type="published" when="2006-02">2006-02</date></imprint><idno type="ISSN">1615-6846</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">1615-6846</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Acta</term><term>Active layer</term><term>Anode response</term><term>Anode side</term><term>Capacitance</term><term>Carbon dioxide</term><term>Carbon monoxide</term><term>Cathode side</term><term>Cell temperature</term><term>Cell voltage</term><term>Characteristic frequency</term><term>Charge transfer resistance</term><term>Charge transfer resistance rcta</term><term>Constant phase element</term><term>Current density</term><term>Diffusion coefficient</term><term>Diffusion layer thickness</term><term>Dilution</term><term>Dilution rate</term><term>Dilution rates</term><term>Electroanalytical chemistry</term><term>Electrochemical society</term><term>Electrochimica</term><term>Electrochimica acta</term><term>Equivalent circuit</term><term>Experimental data</term><term>Flow meters</term><term>Flow rate</term><term>Frequency loop</term><term>Fuel cell</term><term>Fuel cell performance</term><term>Fuel cells</term><term>Good agreement</term><term>High frequencies</term><term>High frequency loop</term><term>Humidification conditions</term><term>Humidification temperatures</term><term>Hydrogen content</term><term>Hydrogen dilution</term><term>Hydrogen oxidation</term><term>Imaginary part</term><term>Impedance</term><term>Impedance response</term><term>Impedance spectra</term><term>Impedance spectroscopy</term><term>Liquid water</term><term>Lower performance</term><term>Medium frequency loop</term><term>Medium frequency loops</term><term>Ohmic resistance</term><term>Original research paper</term><term>Original research paper boillot</term><term>Outlet gases</term><term>Oxygen dilution</term><term>Oxygen reduction</term><term>Partial pressure</term><term>Power sources</term><term>Pseudo capacitance</term><term>Pure hydrogen</term><term>Pure oxygen</term><term>Real part</term><term>Reference electrode</term><term>Relative humidity</term><term>Stoichiometric</term><term>Stoichiometric factor</term><term>Tafel slope</term><term>Verlag gmbh</term><term>Water balance</term><term>Weinheim fuel cells</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Acta</term><term>Active layer</term><term>Anode response</term><term>Anode side</term><term>Capacitance</term><term>Carbon dioxide</term><term>Carbon monoxide</term><term>Cathode side</term><term>Cell temperature</term><term>Cell voltage</term><term>Characteristic frequency</term><term>Charge transfer resistance</term><term>Charge transfer resistance rcta</term><term>Constant phase element</term><term>Current density</term><term>Diffusion coefficient</term><term>Diffusion layer thickness</term><term>Dilution</term><term>Dilution rate</term><term>Dilution rates</term><term>Electroanalytical chemistry</term><term>Electrochemical society</term><term>Electrochimica</term><term>Electrochimica acta</term><term>Equivalent circuit</term><term>Experimental data</term><term>Flow meters</term><term>Flow rate</term><term>Frequency loop</term><term>Fuel cell</term><term>Fuel cell performance</term><term>Fuel cells</term><term>Good agreement</term><term>High frequencies</term><term>High frequency loop</term><term>Humidification conditions</term><term>Humidification temperatures</term><term>Hydrogen content</term><term>Hydrogen dilution</term><term>Hydrogen oxidation</term><term>Imaginary part</term><term>Impedance</term><term>Impedance response</term><term>Impedance spectra</term><term>Impedance spectroscopy</term><term>Liquid water</term><term>Lower performance</term><term>Medium frequency loop</term><term>Medium frequency loops</term><term>Ohmic resistance</term><term>Original research paper</term><term>Original research paper boillot</term><term>Outlet gases</term><term>Oxygen dilution</term><term>Oxygen reduction</term><term>Partial pressure</term><term>Power sources</term><term>Pseudo capacitance</term><term>Pure hydrogen</term><term>Pure oxygen</term><term>Real part</term><term>Reference electrode</term><term>Relative humidity</term><term>Stoichiometric</term><term>Stoichiometric factor</term><term>Tafel slope</term><term>Verlag gmbh</term><term>Water balance</term><term>Weinheim fuel cells</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Pile à combustible</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">In this work, an experimental study of gas dilution on the performance of a polymer electrolyte membrane (PEM) fuel cell was carried out. Impedance spectra were analysed depending on the dilution of either hydrogen or oxygen by nitrogen. By comparison of the impedance spectra obtained, the three loops were attributed to hydrogen oxidation, oxygen reduction and a low frequency diffusion process. Hydrogen oxidation was shown to be more complicated when the anode side was fed by a simulated reforming gas than with the same dilution rate with nitrogen.</div></front></TEI><affiliations><list><country><li>France</li></country><region><li>Grand Est</li><li>Lorraine (région)</li></region><settlement><li>Nancy</li><li>Vandoeuvre les Nancy</li></settlement><orgName><li>Centre national de la recherche scientifique</li><li>Laboratoire réactions et génie des procédés</li><li>Université de Lorraine</li></orgName></list><tree><country name="France"><region name="Grand Est"><name sortKey="Boillot, M" sort="Boillot, M" uniqKey="Boillot M" first="M." last="Boillot">M. Boillot</name></region><name sortKey="Bonnet, C" sort="Bonnet, C" uniqKey="Bonnet C" first="C." last="Bonnet">C. Bonnet</name><name sortKey="Carre, P" sort="Carre, P" uniqKey="Carre P" first="P." last="Carre">P. Carre</name><name sortKey="Didierjean, S" sort="Didierjean, S" uniqKey="Didierjean S" first="S." last="Didierjean">S. Didierjean</name><name sortKey="Jatroudakis, N" sort="Jatroudakis, N" uniqKey="Jatroudakis N" first="N." last="Jatroudakis">N. Jatroudakis</name><name sortKey="Lapicque, F" sort="Lapicque, F" uniqKey="Lapicque F" first="F." last="Lapicque">François Lapicque</name><name sortKey="Lapicque, F" sort="Lapicque, F" uniqKey="Lapicque F" first="F." last="Lapicque">François Lapicque</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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