Electrochemical gas-electricity cogeneration through direct carbon solid oxide fuel cells

[1]  RajenderKumar Gupta,et al.  Oxy-fuel combustion technology for coal-fired power generation , 2005 .

[2]  M. Ishida,et al.  Performance of an internal direct-oxidation carbon fuel cell and its evaluation by graphic exergy analysis , 1988 .

[3]  J. Ondov,et al.  Chemical studies of stack fly ash from a coal-fired power plant , 1979 .

[4]  T. M. Gür,et al.  Critical review of carbon conversion in "carbon fuel cells". , 2013, Chemical reviews.

[5]  Pinyarat Jindaratsamee,et al.  Separation of CO2 from the CO2/N2 mixed gas through ionic liquid membranes at the high feed concentration , 2012 .

[6]  Ellen Ivers-Tiffée,et al.  Oxidation of H2, CO and methane in SOFCs with Ni/YSZ-cermet anodes , 2002 .

[7]  U. Stimming,et al.  Direct carbon conversion in a SOFC-system with a non-porous anode , 2010 .

[8]  Meilin Liu,et al.  Behavior of strontium- and magnesium-doped gallate electrolyte in direct carbon solid oxide fuel cells , 2014 .

[9]  Jiang Liu,et al.  Fueling Solid Oxide Fuel Cells with Activated Carbon , 2010 .

[10]  S. Badwal,et al.  A comprehensive review of direct carbon fuel cell technology. , 2012 .

[11]  Z. Wen,et al.  A novel direct carbon fuel cell by approach of tubular solid oxide fuel cells , 2010 .

[12]  Richard K. Lester,et al.  Making Technology Work: Applications in Energy and the Environment , 2003 .

[13]  Turgut M. Gür,et al.  Direct carbon conversion in a helium fluidized bed fuel cell , 2008 .

[14]  Yubao Tang,et al.  Direct carbon solid oxide Fuel Cella potential high performance battery , 2011 .

[15]  Guiling Wang,et al.  Direct carbon fuel cell: Fundamentals and recent developments , 2007 .

[16]  Zongping Shao,et al.  A new carbon fuel cell with high power output by integrating with in situ catalytic reverse Boudouard reaction , 2009 .

[17]  C. Jin,et al.  Dip coating technique in fabrication of cone-shaped anode-supported solid oxide fuel cells , 2009 .

[18]  Jiang Liu,et al.  A novel low-pressure injection molding technique for fabricating anode supported solid oxide fuel cells , 2014 .

[19]  Yubao Tang,et al.  A verification of the reaction mechanism of direct carbon solid oxide fuel cells , 2012, Journal of Solid State Electrochemistry.

[20]  Jiang Liu,et al.  Effect of anode and Boudouard reaction catalysts on the performance of direct carbon solid oxide fuel cells , 2010 .

[21]  James Larminie,et al.  Fuel Cell Systems Explained , 2000 .

[22]  R. Mahajan,et al.  Pushing the limits on possibilities for large scale gas separation: which strategies? , 2000 .

[23]  Jiming Hao,et al.  Primary air pollutant emissions of coal-fired power plants in China: Current status and future prediction , 2008 .

[24]  R. Gorte,et al.  Direct hydrocarbon solid oxide fuel cells. , 2004, Chemical reviews.

[25]  Jiang Liu,et al.  Performance of cone-shaped tubular anode-supported segmented-in-series solid oxide fuel cell stack fabricated by dip coating technique , 2009 .

[26]  N. Minh Ceramic Fuel Cells , 1993 .

[27]  Jens R. Rostrup-Nielsen,et al.  Syngas in perspective , 2002 .

[28]  David G. Streets,et al.  Present and future emissions of air pollutants in China:: SO2, NOx, and CO , 2000 .

[29]  L. Carrette,et al.  Fuel Cells - Fundamentals and Applications , 2001 .

[30]  Turgut M. Gür,et al.  Carbon monoxide-fueled solid oxide fuel cell , 2010 .

[31]  Jiang Liu,et al.  Ni-based anode-supported Al2O3-doped-Y2O3-stabilized ZrO2 thin electrolyte solid oxide fuel cells with Y2O3-stabilized ZrO2 buffer layer , 2014 .

[32]  Toshio Suzuki,et al.  Examination of wet coating and co-sintering technologies for micro-SOFCS fabrication , 2007 .