Fuel cells are expected to be promising future power sources in both aspects of thermal efficiency and environmental friendliness. Accordingly, worldwide research and development efforts have been enormously increasing recently in various applications such as power plants, transportation and portable power sources. Among others, high temperature fuel cells, such as solid oxide fuel cells and molten carbonate fuel cells, are suitable for electric power plants. Moreover, their high operating temperature is quite appropriate to construct further advanced integrated systems. This paper reviews recent literatures on research and development of integrated power generation systems based on high temperature fuel cells. Research and development efforts are summarized in the area of fuel cell/ gas turbine hybrid systems, application of carbon capture technology to fuel cell systems, integration of coal gasification with fuel cells, and the use of alternative fuels.

• Abstract
• 1. 서론
• 2. 고온형 연료전지
• 3. 하이브리드 시스템
• 4. 통합형 시스템
• 5. 결어
• 참고문헌
• 저자소개

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16 Jurado, F., "Study of Molten Carbonate Fuel Cell-Microturbine Hybrid Power Cycles" 111 : 121-129, 2002

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27 Kimijima, S., "Performance Evaluation of Gas Turbine-Fuel Cell Hybrid Micro Generation System" ASME 2002

28 Liese, E. A., "Performance Comparison of Internal reforming Against External Reforming in a SOFC, Gas Turbine Hybrid System" ASME 2003

29 Song, T. W., "Performance Characteristics of a MW-class SOFC/GT Hybrid System Based on a Commercially Available Gas Turbine" 158 : 361-367, 2006

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41 Bedont, P., "Off-Design Performance Analysis of a Hybrid System Based on an Existing MCFC Stack" ASME 2002

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71 Palsson, J., "Design and Off-Design Predictions of a Combined SOFC and Gas Turbine System" ASME 2001

72 Magistri, L., "Design and Off-Design Analysis of a MW Hybrid System Based on Rolls-Royce Integrated Planer SOFC" ASME 2003

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74 Bujalski, W., "Cycling Studies of Solid Oxide Fuel Cell" 157 : 745-749, 2006

75 Stiller, C., "Control Strategy for a Solid Oxide Fuel Cell and Gas Turbine Hybrid System" 158 : 303-315, 2006

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77 Park, S. K., "Comparison between Pressurized Design and Ambient Pressure Design of Hybrid Solid Oxide Fuel Cell-Gas Turbine Systems" 163 : 490-499, 2006

78 Tong Seop Kim, "Comparative Thermodynamic Analysis on Design Performance Characteristics of Solid Oxide Fuel Cell / Gas Turbine Hybrid Power Systems" 대한기계학회 21 (21): 291-302, 2007

79 Yang, W. J., "Comparative Performance Assessment of Pressurized Solid Oxide Fuel Cell / Gas Turbine Hybrid Systems considering Various Design Option" ASME 2005

80 Campanari, S., "Carbon Dioxide Separation from High Temperature Fuel Cell Power Plants" 112 : 273-289, 2002

81 Bohn, D., "Assessment of the Potential of Combined Micro Gas Turbine and High Temperature Fuel Cell Systems" ASME 2002

82 Ubertini, S., "Assessment of an Ambient Pressure MCFC : External Heated GT Hybrid Plants with Steam Injection and Post Combustion" 1 : 174-180, 2001

83 Park, S. K., "Application of Oxy-Combustion Technology to a Hybrid SOFC system" ASME 2009

84 Park, S. K., "Analysis of the Design of a Pressurized SOFC Hybrid System using a Fixed Gas Turbine Design" 170 : 130-139, 2007

85 Yi, Y., "Analysis and Optimization of a Solid Oxide Fuel Cell and Intercooled Gas Turbine (SOFC-ICGT) Hybrid Cycle" 132 : 77-85, 2004

86 Lunghi, P., "Analysis and Optimization of Hybrid MCFC Gas Turbines Plants" 118 : 108-117, 2003

87 Yang, W. J., "Analysis Performance Characteristics of Gas Turbine- Pressurized SOFC Hybrid Systems considering Limiting Design Factors" 16 (16): 1013-1020, 2004

88 Zhu, B., "Advantages of Intermediate Temperature Solid Oxide Fuel Cells for Tractionary Applications" 93 : 82-86, 2001

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