Performances of the Chemical Gas Turbine System and Comparison with Other Gas Turbine Based Cycles

Takahisa Yamamoto; Tomohiko Furuhata; Norio Arai; Koichi Mori

Performances of the Chemical Gas Turbine System and Comparison with Other Gas Turbine Based Cycles

Year 2000, Volume: 3 Issue: 4, 155 - 162, 01.12.2000

Takahisa Yamamoto Tomohiko Furuhata Norio Arai Koichi Mori

Abstract

This paper describes a novel combined cycle based on a “Chemical Gas Turbine” system. The system consists of fuel-rich and fuel-lean combustors with their gas turbines, recuperators, and a steam bottoming cycle. Important features of this system are the gas turbine with C/C composites blades and the fuel-rich combustion techniques. These techniques result in no cooling of turbine blades and much higher turbine inlet temperature, therefore, much higher thermal efficiency. This paper analyzes the energy, exergy, and heat exchanger sizes of the proposed system. Furthermore, optimizations from pressure ratio aspects are discussed. All results are compared with a simple gas turbine system and a conventional combined cycle. The following results were obtained: the chemical gas turbine system achieves a thermal efficiency of 64%, and low exergy loss in the combustion processes. In addition, characteristics of the system are similar to the simple gas turbine system.

This paper was presented at the ECOS'00 Conference in Enschede, July 5-7, 2000

Keywords

fuel-rich combustion, exergy analysis, heat recovery steam generator, high thermal efficiency

Year 2000, Volume: 3 Issue: 4, 155 - 162, 01.12.2000

Takahisa Yamamoto Tomohiko Furuhata Norio Arai Koichi Mori

Abstract

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Details

Primary Language	English
Journal Section	Regular Original Research Article
Authors	Takahisa Yamamoto This is me Tomohiko Furuhata This is me Norio Arai This is me Koichi Mori This is me
Publication Date	December 1, 2000
Published in Issue	Year 2000 Volume: 3 Issue: 4

Cite

APA	Yamamoto, T., Furuhata, T., Arai, N., Mori, K. (2000). Performances of the Chemical Gas Turbine System and Comparison with Other Gas Turbine Based Cycles. International Journal of Thermodynamics, 3(4), 155-162.
AMA	Yamamoto T, Furuhata T, Arai N, Mori K. Performances of the Chemical Gas Turbine System and Comparison with Other Gas Turbine Based Cycles. International Journal of Thermodynamics. December 2000;3(4):155-162.
Chicago	Yamamoto, Takahisa, Tomohiko Furuhata, Norio Arai, and Koichi Mori. “Performances of the Chemical Gas Turbine System and Comparison With Other Gas Turbine Based Cycles”. International Journal of Thermodynamics 3, no. 4 (December 2000): 155-62.
EndNote	Yamamoto T, Furuhata T, Arai N, Mori K (December 1, 2000) Performances of the Chemical Gas Turbine System and Comparison with Other Gas Turbine Based Cycles. International Journal of Thermodynamics 3 4 155–162.
IEEE	T. Yamamoto, T. Furuhata, N. Arai, and K. Mori, “Performances of the Chemical Gas Turbine System and Comparison with Other Gas Turbine Based Cycles”, International Journal of Thermodynamics, vol. 3, no. 4, pp. 155–162, 2000.
ISNAD	Yamamoto, Takahisa et al. “Performances of the Chemical Gas Turbine System and Comparison With Other Gas Turbine Based Cycles”. International Journal of Thermodynamics 3/4 (December 2000), 155-162.
JAMA	Yamamoto T, Furuhata T, Arai N, Mori K. Performances of the Chemical Gas Turbine System and Comparison with Other Gas Turbine Based Cycles. International Journal of Thermodynamics. 2000;3:155–162.
MLA	Yamamoto, Takahisa et al. “Performances of the Chemical Gas Turbine System and Comparison With Other Gas Turbine Based Cycles”. International Journal of Thermodynamics, vol. 3, no. 4, 2000, pp. 155-62.
Vancouver	Yamamoto T, Furuhata T, Arai N, Mori K. Performances of the Chemical Gas Turbine System and Comparison with Other Gas Turbine Based Cycles. International Journal of Thermodynamics. 2000;3(4):155-62.