Preliminary model and validation of molten carbonate fuel cell kinetics under sulphur poisoning
暂无分享,去创建一个
Barbara Bosio | Elisabetta Arato | E. Audasso | SukWoo Nam | S. Nam | B. Bosio | E. Arato | E. Audasso
[1] Anna Moreno,et al. Electrochemical impedance study of the poisoning behaviour of Ni-based anodes at low concentrations of H2S in an MCFC , 2012 .
[2] Fabrizio Scarpa,et al. Biogas purification for MCFC application , 2011 .
[3] Barbara Bosio,et al. Modeling and experimentation of molten carbonate fuel cell reactors in a scale-up process , 1999 .
[4] Jonghee Han,et al. Nano Ni layered anode for enhanced MCFC performance at reduced operating temperature , 2014 .
[5] Jonghee Han,et al. The effect of a ceria coating on the H2S tolerance of a molten carbonate fuel cell , 2006 .
[6] B. Bosio,et al. Experimental influence of operating variables on the performances of MCFCs under SO2 poisoning , 2015 .
[7] Young-Suk Kim,et al. Cobalt and cerium coated Ni powder as a new candidate cathode material for MCFC , 2006 .
[8] Hiroshi Morita,et al. Improvement of electricity generating performance and life expectancy of MCFC stack by applying Li/Na carbonate electrolyte. Test results and analysis of 0.44 m 2 /10 kW- and 1.03 m 2 /10 kW-class stack , 2004 .
[9] Paolo Chiesa,et al. Using MCFC for high efficiency CO2 capture from natural gas combined cycles: Comparison of internal and external reforming , 2013 .
[10] S. Nam,et al. Hydrogen sulfide-resilient anodes for molten carbonate fuel cells , 2013 .
[11] Peter Heidebrecht,et al. Molten carbonate fuel cell (MCFC) with internal reforming : model-based analysis of cell dynamics , 2003 .
[12] Ivonne Sgura,et al. Numerical modelling of MCFC cathode degradation in terms of morphological variations , 2011 .
[13] Suk Woo Nam,et al. An effective semi-empiric model for MCFC kinetics: Theoretical development and experimental parameters identification , 2014 .
[14] Barbara Bosio,et al. Membranes and Molten Carbonate Fuel Cells to Capture CO2 and Increase Energy Production in Natural Gas Power Plants , 2013 .
[15] Achim Kienle,et al. Development of physical models for the process control of a molten carbonate fuel cell system , 2004 .
[16] Jonghee Han,et al. MCFC fed with biogas: Experimental investigation of sulphur poisoning using impedance spectroscopy , 2011 .
[17] B. Bosio,et al. Thermal management of the molten carbonate fuel cell plane , 2010 .
[18] G. Cinti,et al. Carbon capture with molten carbonate fuel cells: Experimental tests and fuel cell performance assessment , 2012 .
[19] Francesco Calise,et al. Molten carbonate fuel cell: An experimental analysis of a 1kW system fed by landfill gas , 2015 .
[20] Shabbir Ahmed,et al. Fuel quality issues with biogas energy – An economic analysis for a stationary fuel cell system , 2012 .
[21] U. Desideri,et al. Modeling the performance of MCFC for various fuel and oxidant compositions , 2014 .
[22] Jarosław Milewski,et al. Molten carbonate fuel cell operation under high concentrations of SO2 on the cathode side , 2016 .
[23] Yongping Yang,et al. Study on a new IGCC (Integrated Gasification Combined Cycle) system with CO2 capture by integrating MCFC (Molten Carbonate Fuel Cell) , 2015 .
[24] Tatsuo Nishina,et al. Water effect on oxygen reduction in molten (Li + K)CO3 eutectic , 1996 .
[25] V. Lair,et al. TiO2 protective coating processed by Atomic Layer Deposition for the improvement of MCFC cathode , 2013 .
[26] Hiroshi Morita,et al. Performance analysis of molten carbonate fuel cell using a Li/Na electrolyte , 2002 .
[27] Koichi Asano,et al. Applicability of molten carbonate fuel cells to various fuels , 2006 .
[28] Barbara Bosio,et al. Extension of an effective MCFC kinetic model to a wider range of operating conditions , 2016 .
[29] Suk Woo Nam,et al. Integrated numerical and experimental study of a MCFC-plasma gasifier energy system , 2012 .
[30] Jonghee Han,et al. Influence of nano zirconia on NiAl anodes for molten carbonate fuel cell: Characterization, cell tests and post-analysis , 2017 .
[31] I. Uchida,et al. Kinetic study of oxygen reduction in molten Li2CO3-Na2CO3 under pressurized conditions , 1993 .
[32] Yoshihiro Mugikura,et al. Effects of NH3 and NOx on the performance of MCFCs , 2002 .
[33] L. Barelli,et al. Kinetic modelling of molten carbonate fuel cells: Effects of cathode water and electrode materials , 2016 .
[34] Mehtap Ozekmekci,et al. Use of zeolites for the removal of H2S: A mini-review , 2015 .
[35] Kimihiko Sugiura,et al. The carbon dioxide concentrator by using MCFC , 2003 .
[36] S. J. McPhail,et al. Experimental analysis of SO2 effects on Molten Carbonate Fuel Cells , 2014 .
[37] Yongping Yang,et al. Study on a gas-steam combined cycle system with CO2 capture by integrating molten carbonate fuel cell , 2014 .
[38] S. J. McPhail,et al. Molten carbonate fuel cells for CO2 separation and segregation by retrofitting existing plants – An analysis of feasible operating windows and first experimental findings , 2015 .
[39] Hiroshi Morita,et al. Model of Cathode Reaction Resistance in Molten Carbonate Fuel Cells , 1998 .
[40] G. Lindbergh,et al. Effect of sulfur contaminants on MCFC performance , 2014 .
[41] Angelo Moreno,et al. Biofuels as opportunity for MCFC niche market application , 2008 .
[42] Fumihiko Yoshiba,et al. Numerical analysis of molten carbonate fuel cell stack performance : diagnosis of internal conditions using cell voltage profiles , 2000 .
[43] Jarosław Milewski,et al. A reduced order model of Molten Carbonate Fuel Cell: A proposal , 2013 .
[44] Jack Winnick,et al. Sulfation of the Molten Carbonate Fuel Cell Anode , 1989 .
[45] Corrado Schenone,et al. Experimental and numerical analysis of gas distribution in molten carbonate fuel cells , 2014 .
[46] Lan Hu,et al. Electrochemical performance of reversible molten carbonate fuel cells , 2014 .
[47] Yoshihiro Mugikura,et al. Effects of fluoride on the performance of MCFCs , 2003 .
[48] B. Bosio,et al. Fluid-dynamic characterisation of MCFC gas distributors , 2009 .
[49] S. Nam,et al. Experimental and theoretical analysis of H2S effects on MCFCs , 2012 .