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Mosialek, K. Motylinski, E. Naumovich, P. Nowak, G. Pasciak, P. Pianko-Oprych, D. Pomykalska, M. Rekas, A. Sciazko, K. Swierczek, J. Szmyd, S. Wachowski, T. Wejrzanowski, W. Wrobel, K. Zagorski, W. Zajac, A. Zurawska, Status report on high temperature fuel cells in Poland - recent advances and achievements, International Journal of Hydrogen Energy 7 — Selman, C. Chen, Scientific and technical maturity of molten carbonate technology, International Journal of Hydrogen Energy 24 — Czelej, K. Cwieka, K. Cwieka, T. Wejrzanowski, P.
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Molten-carbonate fuel Cells for Waterborne APplication
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molten carbonate fuel cell
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Holzer, T. Hocker, M. Prestat, V. Schmidt, Stochastic 3D modeling of La0. Schmidt, O. Molten carbonate fuel cells MCFCs use a molten carbonate salt suspended in a porous ceramic matrix as the electrolyte. Salts commonly used include lithium carbonate, potassium carbonate and sodium carbonate. Firstly, the high operating temperature dramatically improves reaction kinetics and thus it is not necessary to boost these with a noble metal catalyst. The higher temperature also makes the cell less prone to carbon monoxide poisoning than lower temperature systems.
Disadvantages associated with MCFC units arise from using a liquid electrolyte rather than a solid and the requirement to inject carbon dioxide at the cathode as carbonate ions are consumed in reactions occurring at the anode.
checkout.midtrans.com/aitona-como-conocer-gente-nueva.php MCFCs are used in large stationary power generation.