BibTex RIS Cite

AZEP Gas Turbine Combined Cycle Power Plants - Thermo-economic Analysis

Year 2006, Volume: 9 Issue: 1, 21 - 28, 01.03.2006

Björn Möller Tord Torisson Mohsen Assadi Sven Sundkvist Mats Sjödin Ake Klang Knut Asen Kjersti Wilhelmsen

Abstract

Conventional power plants based on fossil fuel without CO2 capture produced flue gas streams with concentrations of CO2 between 3% and 15%, contributing to the threat of increasing global warming. Existing capture technologies such as post-combustion flue gas treatments using chemical absorption, pre-combustion carbon removal or combustion in O2/CO2 atmospheres suffer from significant efficiency penalties as well as major increases in investment costs. A less energy intensive concept for oxygen production is a mixed conducting membrane (MCM) reactor which produces pure oxygen from compressed air. The MCM reactor is best integrated into a conventional gas turbine combined cycle, called advanced zero emissions plant (AZEP), to provide an efficient and cost-effective power plant altogether. In this paper the economic performance of four different combined cycle alternatives in two different gas turbine sizes are evaluated; two of the combined cycles being based on the AZEP concept. The results show that the AZEP concept presents a more competitive system in terms of efficiency and economy compared to traditional capture systems.

Keywords

CO2 capture zero emissions combined cycles thermo-economy

Year 2006, Volume: 9 Issue: 1, 21 - 28, 01.03.2006

Björn Möller Tord Torisson Mohsen Assadi Sven Sundkvist Mats Sjödin Ake Klang Knut Asen Kjersti Wilhelmsen

Abstract

There are 0 citations in total.

Details

Primary Language English
Journal Section Regular Original Research Article
Authors

Björn Möller This is me

Tord Torisson This is me

Mohsen Assadi This is me

Sven Sundkvist This is me

Mats Sjödin This is me

Ake Klang This is me

Knut Asen This is me

Kjersti Wilhelmsen This is me

Publication Date March 1, 2006
Published in Issue Year 2006 Volume: 9 Issue: 1

Cite

APA Möller, B., Torisson, T., Assadi, M., Sundkvist, S., et al. (2006). AZEP Gas Turbine Combined Cycle Power Plants - Thermo-economic Analysis. International Journal of Thermodynamics, 9(1), 21-28.
AMA Möller B, Torisson T, Assadi M, Sundkvist S, Sjödin M, Klang A, Asen K, Wilhelmsen K. AZEP Gas Turbine Combined Cycle Power Plants - Thermo-economic Analysis. International Journal of Thermodynamics. March 2006;9(1):21-28.
Chicago Möller, Björn, Tord Torisson, Mohsen Assadi, Sven Sundkvist, Mats Sjödin, Ake Klang, Knut Asen, and Kjersti Wilhelmsen. “AZEP Gas Turbine Combined Cycle Power Plants - Thermo-Economic Analysis”. International Journal of Thermodynamics 9, no. 1 (March 2006): 21-28.
EndNote Möller B, Torisson T, Assadi M, Sundkvist S, Sjödin M, Klang A, Asen K, Wilhelmsen K (March 1, 2006) AZEP Gas Turbine Combined Cycle Power Plants - Thermo-economic Analysis. International Journal of Thermodynamics 9 1 21–28.
IEEE B. Möller, T. Torisson, M. Assadi, S. Sundkvist, M. Sjödin, A. Klang, K. Asen, and K. Wilhelmsen, “AZEP Gas Turbine Combined Cycle Power Plants - Thermo-economic Analysis”, International Journal of Thermodynamics, vol. 9, no. 1, pp. 21–28, 2006.
ISNAD Möller, Björn et al. “AZEP Gas Turbine Combined Cycle Power Plants - Thermo-Economic Analysis”. International Journal of Thermodynamics 9/1 (March 2006), 21-28.
JAMA Möller B, Torisson T, Assadi M, Sundkvist S, Sjödin M, Klang A, Asen K, Wilhelmsen K. AZEP Gas Turbine Combined Cycle Power Plants - Thermo-economic Analysis. International Journal of Thermodynamics. 2006;9:21–28.
MLA Möller, Björn et al. “AZEP Gas Turbine Combined Cycle Power Plants - Thermo-Economic Analysis”. International Journal of Thermodynamics, vol. 9, no. 1, 2006, pp. 21-28.
Vancouver Möller B, Torisson T, Assadi M, Sundkvist S, Sjödin M, Klang A, Asen K, Wilhelmsen K. AZEP Gas Turbine Combined Cycle Power Plants - Thermo-economic Analysis. International Journal of Thermodynamics. 2006;9(1):21-8.