Details

Title

Thermodynamic analysis of a new dual evaporator CO2 transcritical refrigeration cycle

Journal title

Archives of Thermodynamics

Yearbook

2017

Numer

No 1

Publication authors

Divisions of PAS

Nauki Techniczne

Publisher

The Committee on Thermodynamics and Combustion of the Polish Academy of Sciences

Date

2017

Identifier

eISSN 2083-6023 ; ISSN 1231-0956

References

Lin (2013), Numerical investigation of geometry parameters for pressure recovery of an adjustable ejector in multievaporator refrigeration system, Appl Therm Eng, 61, 649. ; Chen (2013), Recent developments in ejector refrigeration technologies, Renew Sust Energ Rev, 19, 629. ; Cengel (2007), Thermodynamics : An Engineering Approach th Edn, McGraw, 6. ; Elbel (2008), Experimental validation of a prototype ejector designed to reduce throttling losses encountered in transcritical system operation, Int J Refrig, 31, 744. ; Lin (2012), Pressure recovery ratio in a variable cooling loads ejector - based multi - evaporator refrigeration system, Energy, 44, 649. ; Zhou (2013), Theoretical study on a novel dual - nozzle ejector enhanced refrigeration cycle for household refrigerator - freezers, Energy Convers Manag, 73, 278. ; Brunion (1997), Compression of the working domains of some compression heat pumps and a compression - absorption heat pump, Int J Refrig, 20, 308. ; Huang (1999), - D analysis of ejector performance, Int J Refrig, 22, 1. ; Liu (2002), Thermodynamic analysis on trans - critical vapor compression / ejection hybrid refrigeration cycle In Fifth IIR - GUSTAV Lorentzen Conference on Natural Working Fluids, Proc, 744. ; Groll (2007), Review article : review of recent advances toward transcritical CO cycle technology, HVAC R Res, 13, 499. ; Manjili (2012), Performance of a new two - stage multi - intercooling transcritical CO ejector refrigeration cycle, Appl Therm Eng, 40, 202. ; Chunnanond (2004), Ejectors : applications in refrigeration technology, Renew Sust Energ Rev, 8, 129. ; Liu (2013), Study of ejector efficiencies in refrigeration cycles, Appl Therm Eng, 52, 360. ; Lin (2013), Experimental investigation of the adjustable ejector in a multi - evaporator refrigeration system, Appl Therm Eng, 61, 10. ; Chen (1988), A new ejector - absorber cycle to improve the COP of an absorption refrigeration system, Applied Energy, 30, 37. ; Yang (2007), Performance investigation of transcritical carbon dioxide two - stage compression cycle with expander, Energy, 32, 237. ; Lu (2013), Performance study on compressed air refrigeration system based on single screw expander, Energy, 55, 762. ; Sharma (2014), Comparative analysis of various CO configurations in supermarket refrigeration systems, Int J Refrig, 46, 86. ; Nehdi (2007), Performance analysis of the vapor compression cycle using ejector as an expander, Int J Energ Res, 31, 364. ; Elias Bou Lawz Ksayer (2007), Étude et conception des systèmes á efficacité énergétique améliorée fonctionnant au CO comme fluide frigorigène, Chapt, 2, 2. ; Li (2005), Transcritical CO refrigeration cycle with ejector - expansion device, Int J Refrig, 28, 766. ; Elakdhar (2007), Analysis of a compression - ejection cycle for domestic refrigeration, Ind Eng Chem Res, 46, 4639. ; Radermacher (1996), Domestic refrigerators : recent developments, Int J Refrig, 19, 61. ; Shin (2014), Theoretical analysis of performance of a two - stage compression CO cycle with two different evaporating temperatures, Int J Refrig, 47, 164. ; Kairouani (2009), Use of ejectors in a multi - evaporator refrigeration system for performance enhancement, Int J Refrig, 32, 1173. ; Dudar (2013), Exergy analysis of operation of two - phase ejector in compression refrigeration systems, Arch Thermodyn, 34, 107.

DOI

10.1515/aoter-2017-0003

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