Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application

Charlotte Dejfors; Gunnar Svedberg

Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application

Year 1999, Volume: 2 Issue: 3, 125 - 131, 01.09.1999

Abstract

Exergy analysis is performed for four biomass-fueled power cycles presented in a previous study, (Dejfors et al. 1997). Ammonia-water power cycles are compared with Rankine steam cycles for both direct-fired cogeneration application and conventional condensing power application. For all applications studied, the ammonia-water cycle has less exergy losses in the condensers but higher exergy losses in the boiler and in the internal heat exchange system compared with the Rankine cycle. In the condensing case, the superior heat exchange in the condenser for the ammonia-water cycle counterbalances the inferior heat exchange in the internal heat exchangers and in the boiler. In the cogeneration case, the useful exergy out from the turbines and to the district heating network is higher for the Rankine cycle.

This paper was presented at the ECOS’98 Conference in Nancy, June 8-10, 1998

Keywords

cogeneration, exergy analysis, ammonia, water, binary mixtures, biomass

Year 1999, Volume: 2 Issue: 3, 125 - 131, 01.09.1999

Charlotte Dejfors Gunnar Svedberg

Abstract

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Details

Primary Language	English
Journal Section	Regular Original Research Article
Authors	Charlotte Dejfors This is me Gunnar Svedberg This is me
Publication Date	September 1, 1999
Published in Issue	Year 1999 Volume: 2 Issue: 3

Cite

APA	Dejfors, C., & Svedberg, G. (1999). Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application. International Journal of Thermodynamics, 2(3), 125-131.
AMA	Dejfors C, Svedberg G. Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application. International Journal of Thermodynamics. September 1999;2(3):125-131.
Chicago	Dejfors, Charlotte, and Gunnar Svedberg. “Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application”. International Journal of Thermodynamics 2, no. 3 (September 1999): 125-31.
EndNote	Dejfors C, Svedberg G (September 1, 1999) Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application. International Journal of Thermodynamics 2 3 125–131.
IEEE	C. Dejfors and G. Svedberg, “Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application”, International Journal of Thermodynamics, vol. 2, no. 3, pp. 125–131, 1999.
ISNAD	Dejfors, Charlotte - Svedberg, Gunnar. “Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application”. International Journal of Thermodynamics 2/3 (September 1999), 125-131.
JAMA	Dejfors C, Svedberg G. Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application. International Journal of Thermodynamics. 1999;2:125–131.
MLA	Dejfors, Charlotte and Gunnar Svedberg. “Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application”. International Journal of Thermodynamics, vol. 2, no. 3, 1999, pp. 125-31.
Vancouver	Dejfors C, Svedberg G. Second Law Analysis of Ammonia-Water Power Cycle for Direct-Fired Cogeneration Application. International Journal of Thermodynamics. 1999;2(3):125-31.