MCFC matrix: A comparison between the traditional tape casting process and the upgraded plastic extrusion technology set up by FN
Since 1990 FN S.p.A (a 98.65% ENEA participated Company), in collaboration with ENEA and AFCo-Ansaldo Fuel Cells Company, has been involved in research and development activities in the field of high temperature fuel cell porous components and in their traditional manufacturing processes (tape casti...
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| Veröffentlicht in: | International journal of hydrogen energy 2011-07, Vol.36 (13), p.8094-8097 |
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| container_title | International journal of hydrogen energy |
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| creator | Ferrari, E. Ghisolfi, E. Amelio, C. Baccaro, S. |
| description | Since 1990 FN S.p.A (a 98.65% ENEA participated Company), in collaboration with ENEA and AFCo-Ansaldo Fuel Cells Company, has been involved in research and development activities in the field of high temperature fuel cell porous components and in their traditional manufacturing processes (tape casting and sintering).
In alternative to the traditional tape casting technology, FN has developed an innovative process based on the moulding plastic technology for the production of MCFC ceramic matrixes. With the new technology the environmental impact is reduced as it has been shown by LCA (Life Cycle Assessment) preliminary studies. These results are not the only advantages: the new process allows the realization of various and/or complex component shapes, a higher productivity level, cost reducing and the complete re-workability of rejects.
In this paper a comparison between the traditional tape casting process and the new route process is shown. |
| doi_str_mv | 10.1016/j.ijhydene.2011.01.054 |
| format | Article |
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In alternative to the traditional tape casting technology, FN has developed an innovative process based on the moulding plastic technology for the production of MCFC ceramic matrixes. With the new technology the environmental impact is reduced as it has been shown by LCA (Life Cycle Assessment) preliminary studies. These results are not the only advantages: the new process allows the realization of various and/or complex component shapes, a higher productivity level, cost reducing and the complete re-workability of rejects.
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In alternative to the traditional tape casting technology, FN has developed an innovative process based on the moulding plastic technology for the production of MCFC ceramic matrixes. With the new technology the environmental impact is reduced as it has been shown by LCA (Life Cycle Assessment) preliminary studies. These results are not the only advantages: the new process allows the realization of various and/or complex component shapes, a higher productivity level, cost reducing and the complete re-workability of rejects.
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In alternative to the traditional tape casting technology, FN has developed an innovative process based on the moulding plastic technology for the production of MCFC ceramic matrixes. With the new technology the environmental impact is reduced as it has been shown by LCA (Life Cycle Assessment) preliminary studies. These results are not the only advantages: the new process allows the realization of various and/or complex component shapes, a higher productivity level, cost reducing and the complete re-workability of rejects.
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| ispartof | International journal of hydrogen energy, 2011-07, Vol.36 (13), p.8094-8097 |
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| language | eng |
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| source | Elsevier ScienceDirect Journals |
| subjects | Alternative fuels. Production and utilization Applied sciences Ceramics Cost engineering Energy Environmental impact Exact sciences and technology Extrusion Fuel cells Fuels Hydrogen Life cycle assessment Life cycle engineering Matrix Molten carbonate fuel cell Pressure casting Tape casting |
| title | MCFC matrix: A comparison between the traditional tape casting process and the upgraded plastic extrusion technology set up by FN |
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