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Effect of Internal Heat Recovery in Ammonia-Water Absorption Cooling Cycles: Exergy and Structural Analysis

Year 2009, Volume: 12 Issue: 1, 17 - 27, 01.03.2009

Abstract

First and second law analysis have been conducted for three low temperature driven ammonia-water absorption cooling cycles with increasing internal heat recovery. Based on the results of exergy analysis the structural analysis has been achieved. The obtained Coefficients of Structural Bonds (CSB) consider how the irreversibility of the whole cycle is affected by a change in the irreversibility related to an efficiency improvement of a single component. Trends for the different configurations are similar, while quantitative differences among the main heat exchangers are considerable. The highest values of the CSB are found for the refrigerant heat exchanger. Also the evaporator, the condenser, the generator and the absorber show values higher than unity. The lowest CSB’s are obtained in the solution heat exchanger. In general, CSB’s decrease with increasing efficiency. That means that for very efficient heat exchangers, a further improvement looks less attractive. The dephlegmator is an exception as it shows a singularity of the CSB value due to its complex interactions with the other components. Once the CSB’s are obtained for the main components, they can be used in the structural method of the thermoeconomic optimisation. This method enables us to find the optimum design of a component in a straightforward calculation.

Year 2009, Volume: 12 Issue: 1, 17 - 27, 01.03.2009

Abstract

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Details

Primary Language English
Journal Section Regular Original Research Article
Authors

Dieter Boer This is me

Berhane Gebreslassie This is me

Marc Medrano This is me

Miquel Nogués This is me

Publication Date March 1, 2009
Published in Issue Year 2009 Volume: 12 Issue: 1

Cite

APA Boer, D., Gebreslassie, B., Medrano, M., Nogués, M. (2009). Effect of Internal Heat Recovery in Ammonia-Water Absorption Cooling Cycles: Exergy and Structural Analysis. International Journal of Thermodynamics, 12(1), 17-27.
AMA Boer D, Gebreslassie B, Medrano M, Nogués M. Effect of Internal Heat Recovery in Ammonia-Water Absorption Cooling Cycles: Exergy and Structural Analysis. International Journal of Thermodynamics. March 2009;12(1):17-27.
Chicago Boer, Dieter, Berhane Gebreslassie, Marc Medrano, and Miquel Nogués. “Effect of Internal Heat Recovery in Ammonia-Water Absorption Cooling Cycles: Exergy and Structural Analysis”. International Journal of Thermodynamics 12, no. 1 (March 2009): 17-27.
EndNote Boer D, Gebreslassie B, Medrano M, Nogués M (March 1, 2009) Effect of Internal Heat Recovery in Ammonia-Water Absorption Cooling Cycles: Exergy and Structural Analysis. International Journal of Thermodynamics 12 1 17–27.
IEEE D. Boer, B. Gebreslassie, M. Medrano, and M. Nogués, “Effect of Internal Heat Recovery in Ammonia-Water Absorption Cooling Cycles: Exergy and Structural Analysis”, International Journal of Thermodynamics, vol. 12, no. 1, pp. 17–27, 2009.
ISNAD Boer, Dieter et al. “Effect of Internal Heat Recovery in Ammonia-Water Absorption Cooling Cycles: Exergy and Structural Analysis”. International Journal of Thermodynamics 12/1 (March 2009), 17-27.
JAMA Boer D, Gebreslassie B, Medrano M, Nogués M. Effect of Internal Heat Recovery in Ammonia-Water Absorption Cooling Cycles: Exergy and Structural Analysis. International Journal of Thermodynamics. 2009;12:17–27.
MLA Boer, Dieter et al. “Effect of Internal Heat Recovery in Ammonia-Water Absorption Cooling Cycles: Exergy and Structural Analysis”. International Journal of Thermodynamics, vol. 12, no. 1, 2009, pp. 17-27.
Vancouver Boer D, Gebreslassie B, Medrano M, Nogués M. Effect of Internal Heat Recovery in Ammonia-Water Absorption Cooling Cycles: Exergy and Structural Analysis. International Journal of Thermodynamics. 2009;12(1):17-2.