Anode regeneration following carbon depositions in an industrial-sized anode supported solid oxide fuel cell operating on synthetic diesel reformate
暂无分享,去创建一个
Christoph Hochenauer | Vanja Subotić | Jürgen Rechberger | Christoph Schluckner | C. Hochenauer | V. Subotić | C. Schluckner | H. Schroettner | J. Rechberger | Jörg Mathé | Hartmuth Schroettner | Jörg Mathe
[1] J. Vohs,et al. Role of Hydrocarbon Deposits in the Enhanced Performance of Direct-Oxidation SOFCs , 2003 .
[2] Ahmed F. Ghoniem,et al. On the Predictions of Carbon Deposition on the Nickel Anode of a SOFC and Its Impact on Open-Circuit Conditions , 2013 .
[3] Li Sun,et al. Long-Term SOFCs Button Cell Testing , 2014 .
[4] Jeremy Lawrence,et al. Auxiliary power unit based on a solid oxide fuel cell and fuelled with diesel , 2006 .
[5] Hongpeng He,et al. Carbon deposition on Ni/YSZ composites exposed to humidified methane , 2007 .
[6] David Chadwick,et al. The influence of point defects on the resistance of ceria to carbon deposition in hydrocarbon catalysis , 2000 .
[7] Y. Xiong,et al. Deposited carbon distributions on nickel film/oxide substrate systems , 2011 .
[8] Hirofumi Sumi,et al. Comparison Between Internal Steam and CO2 Reforming of Methane for Ni-YSZ and Ni-ScSZ SOFC Anodes , 2010 .
[9] J. Vohs,et al. Carbonaceous deposits in direct utilization hydrocarbon SOFC anode , 2005 .
[10] Tohru Kato,et al. Imaging of CH4 decomposition around the Ni/YSZ interfaces under anodic polarization , 2005 .
[11] Chunshan Song,et al. Fuel processing for low-temperature and high-temperature fuel cells , 2002 .
[12] Nigel P. Brandon,et al. Durability of anode supported Solid Oxides Fuel Cells (SOFC) under direct dry-reforming of methane , 2013 .
[13] W. L. Worrell,et al. Cu-Ni Cermet Anodes for Direct Oxidation of Methane in Solid-Oxide Fuel Cells , 2002 .
[14] H. Sumi,et al. Effects of crystal Structure of yttria- and scandia-stabilized zirconia in nickel-based SOFC anodes , 2011 .
[15] Christoph Hochenauer,et al. Three-dimensional numerical and experimental investigation of an industrial-sized SOFC fueled by diesel reformat – Part I: Creation of a base model for further carbon deposition modeling , 2014 .
[16] Ryan Clemmer,et al. Effect of hydrogen on carbon formation on Ni/YSZ composites exposed to methane , 2008 .
[17] S. Reich,et al. Raman spectroscopy of graphite , 2004, Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.
[18] F. R. Foulkes,et al. Fuel Cell Handbook , 1989 .
[19] Nigel P. Brandon,et al. Use of gasification syngas in SOFC: Impact of real tar on anode materials , 2012 .
[20] S. Singhal. Solid oxide fuel cells for stationary, mobile, and military applications , 2002 .
[21] F. Lefebvre-Joud,et al. Carbon deposition in CH4/CO2 operated SOFC: Simulation and experimentation studies , 2012 .
[22] Nigel P. Brandon,et al. The impact of steam and current density on carbon formation from biomass gasification tar on Ni/YSZ, and Ni/CGO solid oxide fuel cell anodes , 2010 .
[23] Josephine M. Hill,et al. Effect of anodic polarization on carbon deposition on Ni/YSZ anodes exposed to methane , 2008 .
[24] Kevin Kendall,et al. Sensitivity of nickel cermet anodes to reduction conditions , 2005 .
[25] Miao He,et al. Evaluation of carbon deposition behavior on the nickel/yttrium-stabilized zirconia anode-supported f , 2011 .
[26] M. Dokiya,et al. Electrical and Ionic Conductivity of Gd‐Doped Ceria , 2000 .
[27] J. Hill,et al. In Situ Raman Studies of Carbon Removal from High Temperature Ni–YSZ Cermet Anodes by Gas Phase Reforming Agents , 2013 .
[28] Y. Hirata,et al. Cell performance of SOFC using CH4–CO2 mixed gases , 2014 .
[29] Hee Chun Lim,et al. Carbon deposition and cell performance of Ni-YSZ anode support SOFC with methane fuel , 2002 .
[30] Kazunari Sasaki,et al. Poisoning of SOFC anodes by various fuel impurities , 2008 .
[31] M. Marinšek,et al. Ni–YSZ SOFC anodes—Minimization of carbon deposition , 2007 .
[32] Hyung-Tae Lim,et al. Performance of anode-supported solid oxide fuel cell in planar-cell channel-type setup , 2013 .
[33] Sheikh A. Akbar,et al. A Rugged Oxygen Gas Sensor with Solid Reference for High Temperature Applications , 2001 .
[34] Nigel P. Brandon,et al. A study of carbon deposition on solid oxide fuel cell anodes using electrochemical impedance spectroscopy in combination with a high temperature crystal microbalance , 2013 .
[35] U. Stimming,et al. Advances, aging mechanisms and lifetime in solid-oxide fuel cells , 2004 .
[36] H. Miao,et al. Effect of Simulated Coal-Derived Gas Composition on H2S Poisoning Behavior Evaluated Using a Disaggregation Scheme , 2009 .
[37] Andrew S. Martinez,et al. Thermodynamic analysis of interactions between Ni-based solid oxide fuel cells (SOFC) anodes and trace species in a survey of coal syngas , 2010 .
[38] Hiroshi Mori,et al. Performance of nickel–scandia-stabilized zirconia cermet anodes for SOFCs in 3% H2O–CH4 , 2004 .
[39] Jarosław Milewski,et al. Artificial Neural Network-Based Model for Calculating the Flow Composition Influence of Solid Oxide Fuel Cell , 2014 .
[40] E. Ivers-Tiffée,et al. Coke Formation and Degradation in SOFC Operation with a Model Reformate from Liquid Hydrocarbons , 2008 .
[41] Meilin Liu,et al. Deactivation of nickel-based anode in solid oxide fuel cells operated on carbon-containing fuels , 2014 .
[42] Phillip N. Hutton,et al. Carbon deposition in an SOFC fueled by tar-laden biomass gas: a thermodynamic analysis , 2005 .
[43] J. Bae,et al. Performance of SOFC coupled with n-C4H10 autothermal reformer: Carbon deposition and development of anode structure , 2010 .
[44] Kohei Ito,et al. Chlorine Poisoning of SOFC Ni-Cermet Anodes , 2008 .
[45] Michael B. Pomfret,et al. Thermal imaging of solid oxide fuel cell anode processes , 2010 .
[46] D. Meissner,et al. Operating Micro-Tubular SOFCs Containing Nickel Based Anodes with Blends of Methane and Hydrogen , 2007, 2007 International Conference on Clean Electrical Power.
[47] Yu Luo,et al. Carbon deposition on patterned nickel/yttria stabilized zirconia electrodes for solid oxide fuel cell/solid oxide electrolysis cell modes , 2015 .
[48] Boris Iwanschitz,et al. Fundamental mechanisms limiting solid oxide fuel cell durability , 2008 .
[49] M. Marinšek,et al. Deactivation of Ni-YSZ Material in Dry Methane and Oxidation of Various Forms of Deposited Carbon , 2012 .
[50] J. Hill,et al. Carbon deposition on Ni/YSZ anodes exposed to CO/H2 feeds , 2010 .
[51] Werner Lerch,et al. Impact of naphthalene on the performance of SOFCs during operation with synthetic wood gas , 2011 .
[52] Nigel P. Brandon,et al. The impact of carbon formation on Ni–YSZ anodes from biomass gasification model tars operating in dry conditions , 2009 .