论文信息 - The Use of a High Temperature Wind Tunnel for MT-SOFC Testing—Part II: Use of Computational Fluid Dynamics Software in Order to Study Previous Measurements - 字舞流文

The Use of a High Temperature Wind Tunnel for MT-SOFC Testing—Part II: Use of Computational Fluid Dynamics Software in Order to Study Previous Measurements

Stefano Cordiner | Christoph Hochenauer | Dieter Meissner | Abdul-Ghani Olabi | Gerald Zauner | V. Lawlor | S. Griesser | Sascha Kuehn | Katrin Klein | G. Buchinger | V. Lawlor | Dieter Meissner | A. Mariani | G. Buchinger | S. Cordiner | D. Meissner | C. Hochenauer | A. Olabi | A. Mariani | V. Lawlor | G. Zauner | S. Griesser | S. Kuehn | K. Klein | G. Buchinger | Katrin Klein

[1] A. K. Sleiti. Effect of Reduced Temperature and Cathode Porosity on the Performance of Tubular Solid Oxide Fuel Cell , 2008 .

[2] N. Sammes,et al. Design and fabrication of a 100 W anode supported micro-tubular SOFC stack , 2005 .

[3] Daniele Cocco,et al. Externally reformed solid oxide fuel cell–micro-gas turbine (SOFC–MGT) hybrid systems fueled by methanol and di-methyl-ether (DME) , 2009 .

[4] Kenji Murata,et al. Morphology Control of Ni-GDC Cermet Anode for Lower Temperature SOFC , 2007 .

[5] Geoff Kelsall,et al. Modelling Potential, Current and Gas Velocity Distributions in Micro-Tubular Hollow Fiber SOFC Stacks , 2009 .

[6] Toshiaki Yamaguchi,et al. Fabrication and characterization of micro tubular SOFCs for advanced ceramic reactors , 2008 .

[7] Adriano Sciacovelli,et al. Entropy generation analysis in a monolithic-type solid oxide fuel cell (SOFC) , 2009 .

[8] Alberto Traverso,et al. Thermoeconomic analysis of SOFC-GT hybrid systems fed by liquid fuels , 2010 .

[9] Francesco Calise,et al. Full load synthesis/design optimization of a hybrid SOFC–GT power plant , 2007 .

[10] Ryohei Yokoyama,et al. Suitable operational strategy for power interchange operation using multiple residential SOFC (solid oxide fuel cell) cogeneration systems , 2010 .

[11] Kevin Kendall,et al. Progress in Microtubular Solid Oxide Fuel Cells , 2010 .

[12] Stefano Cordiner,et al. CFD-Based Design of Microtubular Solid Oxide Fuel Cells , 2010 .

[13] Yoshinobu Fujishiro,et al. Simulation Study for the Optimization of Microtubular Solid Oxide Fuel Cell Bundles , 2010 .

[14] Mustafa Fazil Serincan,et al. A transient analysis of a micro-tubular solid oxide fuel cell (SOFC) , 2009 .

[15] Nigel M. Sammes,et al. Modeling and Analysis of a Micro-Tubular Solid Oxide Fuel Cell (SOFC) Operating at Intermediate Temperatures , 2007 .

[16] Ahmad K. Sleiti. Performance of tubular Solid Oxide Fuel Cell at reduced temperature and cathode porosity , 2010 .

[17] Stefano Cordiner,et al. Review of the micro-tubular solid oxide fuel cell: Part I. Stack design issues and research activities , 2009 .

[18] Mustafa Fazil Serincan,et al. Thermal stresses in an operating micro-tubular solid oxide fuel cell , 2010 .

[19] A. J. Appleby,et al. Fuel cell technology: Status and future prospects☆☆☆ , 1996 .

[20] S. S. Penner,et al. Commercialization of fuel cells , 1995 .

[21] R. Chouikh,et al. Numerical study of the laminar natural convection flow around an array of two horizontal isothermal cylinders , 1999 .

[22] Mark J.H. Simmons,et al. CFD to predict temperature profile for scale up of micro-tubular SOFC stacks , 2004 .

[23] K. Kendall,et al. Cycling of three solid oxide fuel cell types , 2007 .

[24] Dehua Dong,et al. YSZ-based SOFC with modified electrode/electrolyte interfaces for operating at temperature lower than 650 °C , 2008 .

[25] Chunwen Sun,et al. Cathode materials for solid oxide fuel cells: a review , 2010 .

[26] R. Chouikh,et al. Experimental study of the natural convection flow around an array of heated horizontal cylinders , 2000 .

[27] I. P. Kilbride,et al. Preparation and properties of small diameter tubular solid oxide fuel cells for rapid start-up , 1996 .

[28] Mustafa Fazil Serincan,et al. Computational Thermal-Fluid Analysis of a Microtubular Solid Oxide Fuel Cell , 2008 .

[29] Yoshinobu Fujishiro,et al. Fabrication and characterization of components for cube shaped micro tubular SOFC bundle , 2007 .

[30] S. Singhal. Advances in solid oxide fuel cell technology , 2000 .

[31] Stefano Cordiner,et al. A STUDY TO INVESTIGATE METHODS TO MEASURE THE TEMPERATURE OF A MT-SOFC IN A HIGH TEMPERATURE WIND TUNNEL. , 2009 .

[32] M. Khaleel,et al. Three-dimensional thermo-fluid electrochemical modeling of planar SOFC stacks , 2003 .

[33] Mustafa Fazil Serincan,et al. Effects of operating conditions on the performance of a micro-tubular solid oxide fuel cell (SOFC) , 2009 .

[34] Christie-Joy Brodrick,et al. Analysis of potential fuel consumption and emissions reductions from fuel cell auxiliary power units (APUs) in long-haul trucks , 2007 .

[35] Toshiaki Yamaguchi,et al. Fabrication of Micro-Tubular SOFC Stack Using Ceramic Manifold , 2007 .

[36] Francesco Calise,et al. Simulation and exergy analysis of a hybrid Solid Oxide Fuel Cell (SOFC)–Gas Turbine System , 2006 .

[37] Stefano Cordiner,et al. Micro-tubular SOFCs to Measure the Effects of Cross Flow on Mass Transfer Rates Around the Perimeter of a Cylindrical Electrode , 2009 .

[38] Wolfgang Winkler,et al. Design studies of mobile applications with SOFC-heat engine modules , 2002 .

[39] Sudip Ghosh,et al. Energy analysis of a cogeneration plant using coal gasification and solid oxide fuel cell , 2006 .

[40] Yue Zhang,et al. Status and prospects of intermediate temperature soid oxide fuel cells , 2008 .

[41] D. Cui,et al. Numerical analysis of thermal and electrochemical phenomena for anode supported microtubular SOFC , 2009 .

[42] D Gielen,et al. Prospects for hydrogen and fuel cells , 2005 .

[43] Daniel Favrat,et al. Multi-criteria optimization of a district cogeneration plant integrating a solid oxide fuel cell–gas turbine combined cycle, heat pumps and chillers , 2003 .

[44] Michael K. Jensen,et al. Solid Oxide Fuel Cell Performance With Cross-Flow Roughness , 2011 .

[45] S. Cordiner,et al. An integrated CFD-approch to deisgn micro-tubular Solid Oxide Fuel Cells , 2008, 2008 Second International Conference on Thermal Issues in Emerging Technologies.

[46] Bjarne A. Foss,et al. Modeling and control of a SOFC-GT-based autonomous power system , 2007 .

[47] Toshiaki Yamaguchi,et al. Novel Electrode-Supported Honeycomb Solid Oxide Fuel Cell: Design and Fabrication , 2010 .

[48] Shinji Kimijima,et al. Performance analysis for the part-load operation of a solid oxide fuel cell–micro gas turbine hybrid system , 2008 .

[49] Kang Li,et al. Morphological studies of macrostructure of Ni–CGO anode hollow fibres for intermediate temperature solid oxide fuel cells , 2010 .

[50] Eg G Technical Services. Fuel Cell Handbook , 2006 .

[51] Stefano Cordiner,et al. The Use of a High Temperature Wind Tunnel for MT-SOFC Testing—Part I: Detailed Experimental Temperature Measurement of an MT-SOFC Using an Avant-Garde High Temperature Wind Tunnel and Various Measurement Techniques , 2010 .