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First and second law analysis of ammonia/salt absorption refrigeration systems.
Author(s) : GAROUSI FARSHI L., INFANTE FERREIRA C. A., MAHMOUDI S. M. S., et al.
Type of article: Article, IJR article
Summary
Ammonia/LiNO3 and ammonia/NaSCN absorption refrigeration cycles are alternatives to ammonia/water cycles for refrigeration applications at temperatures below 0°C. They exhibit higher coefficient of performance (COP) values and do not require purification of the refrigerant vapor. Entropy data for such solutions calculated using their most recently published thermophysical property data; we study and compare the cycles thermodynamically. The simulation results are used to examine the influence of various operating parameters on performance and the possibility of crystallization in these cycles. It is shown that, for low generator temperatures, ammonia/LiNO3 cycles have better performance. For high generator temperatures, ammonia/NaSCN cycles have better performance, but the range of allowable generator temperatures is quite limited for this mixture.
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Pages: 111-121
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Details
- Original title: First and second law analysis of ammonia/salt absorption refrigeration systems.
- Record ID : 30010732
- Languages: English
- Source: International Journal of Refrigeration - Revue Internationale du Froid - vol. 40
- Publication date: 2014/04
Links
- See also: Corrigendum to “First and second law analysis of ammonia/salt absorption refrigeration systems” [International Journal of Refrigeration 40 (2014) 111–121].
Comment on ``first and second law analysis of ammonia/salt absorption refrigeration systems by L. Garousi Farshi et al. [Int. J. refrigeration 40 (2014) 111-121]”.
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Indexing
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Themes:
Absorption and adsorption systems;
Blends - Keywords: Refrigerating system; Exergy; Lithium; Thiocyanate; Ammonia; Absorption system; Sodium; Nitrate; Entropy; Enthalpy
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