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Heat pumping cycle optimization using a non-equilibrium phenomenological (two-point) theory on mass and heat transfer.
Author(s) : STAICOVICI M. D.
Summary
A recent non-equilibrium phenomenological (two-point) theory of mass and heat transfer is used to apply second law analysis to several compression and absorption/compression cooling and/or heat pump cycles. Cycle optimization is carried out considering from the very beginning the cyclic source-working fluid interaction. In the case of compression, CO2 (subcritical and transcritical), propane (subcritical) and ammonia (subcritical) cycles are analysed. Concerning the hybrid cycle, an ammonia/water wet compression/resorption cycle is optimized.
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Pages: 2002-4
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Details
- Original title: Heat pumping cycle optimization using a non-equilibrium phenomenological (two-point) theory on mass and heat transfer.
- Record ID : 2003-2588
- Languages: English
- Publication date: 2002/08/26
- Source: Source: Proc. Stockholm Meet., IIR
2002-4; S4; 11 p.; fig.; 12 ref.
Indexing
- Themes: Heat pumps techniques
- Keywords: Resorption; Ammonia; Propane; Heat pump; Performance; Thermodynamic cycle; Compression; CO2
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