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Exergoeconomic optimization of an Organic Rankine Cycle for low-temperature geothermal heat sources

Year 2012, Volume: 15 Issue: 2, 119 - 126, 17.05.2012

Abstract

An exergoeconomic analysis of a geothermal power generation for a low-temperature resource is performed. An Organic Rankine Cycle (ORC) with isobutane and isopentane as working fluids is considered as binary power plant. A systematic parameter variation is done for the minimum temperature difference in the evaporator and condenser. The most suitable design parameters are evaluated under exergetic, economic and exergoeconomic criteria. The specific costs of electricity generation are minimal for the use of isobutane as working fluid and minimal temperature difference of 3 K at evaporation and 7 K at condensation. The most suitable concept for isopentane leads to only 0.4 % higher specific costs although the second law efficiency is 4.75 % lower. The exergoeconomic analysis permits to consider important criteria, like design and operating parameters in the fluid selection for ORC applications.

Year 2012, Volume: 15 Issue: 2, 119 - 126, 17.05.2012

Abstract

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Details

Primary Language English
Journal Section Regular Original Research Article
Authors

Florian Heberle

Pascal Bassermann This is me

Markus Preißinger This is me

Dieter Brüggemann This is me

Publication Date May 17, 2012
Published in Issue Year 2012 Volume: 15 Issue: 2

Cite

APA Heberle, F., Bassermann, P., Preißinger, M., Brüggemann, D. (2012). Exergoeconomic optimization of an Organic Rankine Cycle for low-temperature geothermal heat sources. International Journal of Thermodynamics, 15(2), 119-126.
AMA Heberle F, Bassermann P, Preißinger M, Brüggemann D. Exergoeconomic optimization of an Organic Rankine Cycle for low-temperature geothermal heat sources. International Journal of Thermodynamics. May 2012;15(2):119-126.
Chicago Heberle, Florian, Pascal Bassermann, Markus Preißinger, and Dieter Brüggemann. “Exergoeconomic Optimization of an Organic Rankine Cycle for Low-Temperature Geothermal Heat Sources”. International Journal of Thermodynamics 15, no. 2 (May 2012): 119-26.
EndNote Heberle F, Bassermann P, Preißinger M, Brüggemann D (May 1, 2012) Exergoeconomic optimization of an Organic Rankine Cycle for low-temperature geothermal heat sources. International Journal of Thermodynamics 15 2 119–126.
IEEE F. Heberle, P. Bassermann, M. Preißinger, and D. Brüggemann, “Exergoeconomic optimization of an Organic Rankine Cycle for low-temperature geothermal heat sources”, International Journal of Thermodynamics, vol. 15, no. 2, pp. 119–126, 2012.
ISNAD Heberle, Florian et al. “Exergoeconomic Optimization of an Organic Rankine Cycle for Low-Temperature Geothermal Heat Sources”. International Journal of Thermodynamics 15/2 (May 2012), 119-126.
JAMA Heberle F, Bassermann P, Preißinger M, Brüggemann D. Exergoeconomic optimization of an Organic Rankine Cycle for low-temperature geothermal heat sources. International Journal of Thermodynamics. 2012;15:119–126.
MLA Heberle, Florian et al. “Exergoeconomic Optimization of an Organic Rankine Cycle for Low-Temperature Geothermal Heat Sources”. International Journal of Thermodynamics, vol. 15, no. 2, 2012, pp. 119-26.
Vancouver Heberle F, Bassermann P, Preißinger M, Brüggemann D. Exergoeconomic optimization of an Organic Rankine Cycle for low-temperature geothermal heat sources. International Journal of Thermodynamics. 2012;15(2):119-26.