Hybrid fuel cell gas turbine system design and optimization

Journal of Fuel Cell Science and Technology

Volumn 10, Issue 4, 2013, Pages

  McLarty, Dustin ^a   Brouwer, Jack ^a   Samuelsen, Scott ^a  

^a University of California at Irvine   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

DESIGN AND DEVELOPMENT; DESIGN AND OPTIMIZATION; FUNDAMENTAL DESIGN; GAS TURBINE TECHNOLOGIES; OPTIMAL DESIGN SPACE; PARAMETRIC VARIATION; PERTURBATION ANALYSIS; ULTRALOW EMISSIONS;

COMPUTER SIMULATION; DESIGN; ELECTRIC POWER GENERATION; FUEL CELLS; GAS TURBINES; MODELS; SYSTEMS ANALYSIS;

COMBUSTION;

EID: 84880198240     PISSN: 1550624X     EISSN: 15516989     Source Type: Journal    
DOI: 10.1115/1.4024569     Document Type: Article

References (24)

1. FuelCell Energy Inc., 2006, "Record Electric Efficiency for DFC/Turbine Unit," Fuel Cells Bull., 2006(4), p. 10.
2. FuelCell Energy Inc., 2006, "FCE Power Plant in Earth Day Dedication at Montana Clinic," Fuel Cells Bull., 2006(6), p. 10.
3. Ghezel-Ayagh, H., Walzak, J., Patel, D., Daly, J., Maru, H., Sanderson, R., and Livingood, W., 2005, "State of Direct Fuel Cell/Turbine Systems Development," J. Power Sources, 152, pp. 219-225.
4. Samuelsen, S. and Brouwer, J., 2009, "Fuel Cell/Gas Turbine Hybrid," Encyclopedia of Electrochemical Power Sources, 1st ed., J. Garche, ed., Elsevier, New York, pp. 124-134.
5. Rao, A., MacLay, J., and Samuelsen, S., 2004, "Efficiency of Electrochemical Systems," J. Power Sources, 134, pp. 181-184. (Pubitemid 41325987)
6. Richards, G. A., McMillian, M. M., Gemmen, R. S., Rogers, W. A., and Cully, S. R., 2001, "Issues for Low-Emission, Fuel-Flexible Power Systems," Prog. Energy Combust. Sci., 27, pp. 141-169.
7. Lutsey, N., Brodrick, C. J., and Lipman, T., 2007, "Analysis of Potential Fuel Consumption and Emissions Reductions From Fuel Cell Auxiliary Power Units (APUs) in Long-Haul Trucks," Energy, 32, pp. 2428-2438. (Pubitemid 47418431)
8. Lloyd, A. C., 1992, "California Clean Air Initiatives - The Role of Fuel Cells," J. Power Sources, 37, pp. 241-253.
9. Lloyd, A. C., 2000, "The California Fuel Cell Partnership: An Avenue to Clean Air," J. Power Sources, 86, pp. 57-60.
10. Ferrari, M. L., Liese, E., Tucker, D., Lawson, L., Traverso, A., and Massardo, A. F., 2007, "Transient Modeling of the NETL Hybrid Fuel Cell/Gas Turbine Facility and Experimental Validation," ASME J. Eng. Gas Turbines Power, 129, pp. 1012-1019. (Pubitemid 350120807)
11. Mueller, F., Brouwer, J., Jabbari, F., and Samuelsen, S., 2006, "Dynamic Simulation of an Integrated Solid Oxide Fuel Cell System Including Current-Based Fuel Flow Control," ASME J. Fuel Cell Sci. Technol., 3, pp. 144-154. (Pubitemid 43862783)
12. Yi, Y., Rao, A. D., Brouwer, J., and Samuelsen, S. G., 2004, "Analysis and Optimization of a Solid Oxide Fuel Cell and Intercooled Gas Turbine (SOFCICGT) Hybrid Cycle," J. Power Sources, 132, pp. 77-85. (Pubitemid 41326040)
13. Winkler, W., Nehter, P., Williams, M. C., Tucker, D., and Gemmen, R., 2006, "General Fuel Cell Hybrid Synergies and Hybrid System Testing Status," J. Power Sources, 159, pp. 656-666. (Pubitemid 44301598)
14. Brouwer, J., Jabbari, F., Leal, E. M., and Orr, T., 2005, "Analysis of a Molten Carbonate Fuel Cell: Numerical Modeling and Experimental Validation," J. Power Sources, 158, pp. 213-224.
15. Roberts, R., Brouwer, J., Liese, E., and Gemmen, R. S., 2005, "Development of Controls for Dynamic Operation of Carbonate Fuel Cell-Gas Turbine Hybrid Systems," Proceedings of ASME Turbo Expo 2005, Reno-Tahoe, NV, June 6-9, ASME Paper No. GT2005-68774, pp. 325-331. (Pubitemid 41627262)
16. Roberts, R., Brouwer, J., Liese, E., and Gemmen, R. S., 2005, "Dynamic Simulation of Carbonate Fuel Cell-Gas Turbine Hybrid Systems," ASME J. Eng. Gas Turbines Power, 127, pp. 1-8.
17. Rashidi, R., Berg, P., and Dincer, I., 2009, "Performance Investigation of a Combined MCFC System," Int. J. Hydrogen Energy, 34, pp. 4395-4405.
18. Roberts, R. A., and Brouwer, J., 2006, "Dynamic Simulation of a Pressurized 220 kW Solid Oxide Fuel-Cell-Gas-Turbine Hybrid System: Modeled Performance Compared to Measured Results," ASME J. Fuel Cell Sci. Technol., 3, pp. 18-25.
19. Burbank, W., Witmer, D., and Holcomb, F., 2008, "Model of a Novel Pressurized SOFC-GT Hybrid Engine," J. Power Sources, 193, pp. 656-664.
20. Milewski, J., Miller, A., and Salacinski, J., 2006, "Off-Design Analysis of SOFC Hybrid System," Int. J. Hydrogen Energy, 32, pp. 687-698.
21. Pratt, J. W., Brouwer, J., and Freeh, J. E., 2004, "Development of a Solid-Oxide Fuel Cell/Gas Turbine Hybrid System Model for Aerospace Applications," Proceedings of ASME Turbo Expo 2004, Vienna, Austria, June 14-17, ASME Paper No. GT2004-53616, pp. 371-379.
22. McLarty, D. F., Samuelsen, S., and Brouwer, J., 2010, "Novel Dynamic Quasi- 3-Dimensional High Temperature Fuel Cell Model With Internal Manifolding," ASME 8th International Conference on Fuel Cell Science, Engineering and Technology, Brooklyn, NY, June 14-16, ASME Paper No. FuelCell2010- 33328, pp. 257-268.
23. Yang, J. S., Sohn, J. L., and Ro, S. T., 2007, "Performance Characteristics of a Solid Oxide Fuel Cell/Gas Turbine Hybrid System With Various Part-Load Control Modes," J. Power Sources, 166, pp. 155-164. (Pubitemid 46356837)
24. Kaneko, T., Brouwer, J., and Samuelsen, G. S., 2006, "Power and Temperature Control of Fluctuating Biomass Gas Fueled Solid Oxide Fuel Cell and Micro Gas Turbine Hybrid System," J. Power Sources, 160, pp. 316-325. (Pubitemid 44344379)