EVOLUTION OF FUEL CELLS POWERED BY H2S-CONTAINING GASES
The development of the process and electrochemical materials for conversion of H2S in a fuel cell to co-generate electrical power and benign products is outlined. While the thermodynamic basis for the process was clear, it was necessary to perform extensive research into the development of materials...
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Association of the Chemical Engineers of Serbia
2008-07-01
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| Series: | Chemical Industry and Chemical Engineering Quarterly |
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| Online Access: | http://www.ache.org.yu/CICEQ/2008/No2/03_3000_2008.pdf |
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doaj-aeb7c925e53f479697c2bf1c69aab98b2020-11-24T23:30:02ZengAssociation of the Chemical Engineers of SerbiaChemical Industry and Chemical Engineering Quarterly1451-93722008-07-011426976EVOLUTION OF FUEL CELLS POWERED BY H2S-CONTAINING GASESKARL T. CHUANGJINGLI LUOALAN R. SANGERThe development of the process and electrochemical materials for conversion of H2S in a fuel cell to co-generate electrical power and benign products is outlined. While the thermodynamic basis for the process was clear, it was necessary to perform extensive research into the development of materials as catalysts and electrolytes, and to determine the optimal process and operating conditions. Through the use of composite anode catalysts and compatible new protonic electrolytes that are both chemically and thermally stable in the operating environment, we have achieved good and sustainable power densities. The only products are power, elemental sulfur and steam.http://www.ache.org.yu/CICEQ/2008/No2/03_3000_2008.pdfhydrogen sulfidefuel cellanode catalystelectrolytecathode catalyst |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
KARL T. CHUANG JINGLI LUO ALAN R. SANGER |
| spellingShingle |
KARL T. CHUANG JINGLI LUO ALAN R. SANGER EVOLUTION OF FUEL CELLS POWERED BY H2S-CONTAINING GASES Chemical Industry and Chemical Engineering Quarterly hydrogen sulfide fuel cell anode catalyst electrolyte cathode catalyst |
| author_facet |
KARL T. CHUANG JINGLI LUO ALAN R. SANGER |
| author_sort |
KARL T. CHUANG |
| title |
EVOLUTION OF FUEL CELLS POWERED BY H2S-CONTAINING GASES |
| title_short |
EVOLUTION OF FUEL CELLS POWERED BY H2S-CONTAINING GASES |
| title_full |
EVOLUTION OF FUEL CELLS POWERED BY H2S-CONTAINING GASES |
| title_fullStr |
EVOLUTION OF FUEL CELLS POWERED BY H2S-CONTAINING GASES |
| title_full_unstemmed |
EVOLUTION OF FUEL CELLS POWERED BY H2S-CONTAINING GASES |
| title_sort |
evolution of fuel cells powered by h2s-containing gases |
| publisher |
Association of the Chemical Engineers of Serbia |
| series |
Chemical Industry and Chemical Engineering Quarterly |
| issn |
1451-9372 |
| publishDate |
2008-07-01 |
| description |
The development of the process and electrochemical materials for conversion of H2S in a fuel cell to co-generate electrical power and benign products is outlined. While the thermodynamic basis for the process was clear, it was necessary to perform extensive research into the development of materials as catalysts and electrolytes, and to determine the optimal process and operating conditions. Through the use of composite anode catalysts and compatible new protonic electrolytes that are both chemically and thermally stable in the operating environment, we have achieved good and sustainable power densities. The only products are power, elemental sulfur and steam. |
| topic |
hydrogen sulfide fuel cell anode catalyst electrolyte cathode catalyst |
| url |
http://www.ache.org.yu/CICEQ/2008/No2/03_3000_2008.pdf |
| work_keys_str_mv |
AT karltchuang evolutionoffuelcellspoweredbyh2scontaininggases AT jingliluo evolutionoffuelcellspoweredbyh2scontaininggases AT alanrsanger evolutionoffuelcellspoweredbyh2scontaininggases |
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