PERFORMANCE ANALYSIS OF VAPOUR REFRIGERATION SYSTEM BY USING SPIRAL AND MICRO CHANNEL CONDENSER
DOI:
https://doi.org/10.17605/OSF.IO/PV8Y7Keywords:
COP, Micro channel, Vapor compression refrigerationAbstract
Most of the household refrigerators work on the Vapour compression refrigeration system which are holding high coefficient of performance. The system is assembled with the components like compressor, condenser, expansion valve and evaporator etc. The system performance is governed by each individual component being the part of that system and liable to take system performance up or down ultimately. The research article elaborates work about COP enhancement of domestic refrigerator by making alternative arrangement for condenser. The use of spiral and micro channel condenser raises COP of refrigerator to the value that was never before, the geometry, enhanced surface area of such micro channels are found adding positive results in the enhancement of COP value and work is elaborate through research work drafted in the paper. The results obtained through spiral and micro channel condenser installation are compared with conventional refrigerator and found worth appreciate. The COP enhancement through spiral and micro channel type condenser installation has noted down increased by 5.06% and 13.82% respectively. The base value considered in the comparison is COP of domestic refrigerator with regular condenser system inbuilt.
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References
B. Santosh Kumar. (2015), Experimental Investigation of Vapour compression system with Spiral shaped condenser, IJRME,02, pp.1114.
Pravin lohote and Kolhe K.P. (2016) Review on Performance analysis of Vapour Compression Refrigeration System by using Microchannel heat exchanger JETIR 3(4)pp 202-206.
Pawankumar, Kolhe K.P, and C. K. Datta “Study of effect of pulse process parameters on GTAW process on AA aluminum alloy 7039. International Journal of Engineering and technology in India. ISSN-0976-1268 2010, 1 (2), Pp.61-67.
Francisco julio do Nascimento (2013) An experimental study on flow boiling heat transfer of R134 A in microchannel based heat sink, Science direct,45, pp.117-127.
Seunghyun Lee (2016), Investigation of flow boiling in the large microchannel heat exchanger in a refrigeration loop in space application, Science direct, 97 pp.110-129.
Huize li (2015) An experimentally validated model for microchannel heat exchanger incorporating lubricant heat effect, Science Direct, 59, pp.259-268.
R.S.Andhare (2016),Heat transfer and pressure drop characteristics of a flat plate manifold microchannel heat exchanger in counter flow configuration. Science Direct,96, pp178-189.
Abdul Kareem R.Abed (2014),Experimental study on the effect of Capillary tube geometry on the performance of Vapour Compression refrigeration System ,Diyala Journal of Engineering science,07,pp 47-60
R.Hussainvali,(2015),An experimental investigation and performance evaluation of vapor compression refrigeration system with Helical type condenser by using R134 A and R140A refrigerant, IJERST,4,pp.192-201.
Jala Chandramauli, (2015), Design, application and experimental analysis of vapour compression refrigeration system with Ellipse shaped evaporator coil, IJIRSET,4. pp.7775-7782.
Jaeseon Lee (2009), Low temperature 2 Phase microchannel cooling for high heat flux for thermal management of defense electronics, IEEE,32, pp.453-465
Ashish Wankhade and Kolhe K. P. (2015) “ Design and Analysis of Hydraulic Oil Cooler By Application of Heat Pipe. International Journal of Science Engineering and Technology Research 4(9) Pp.3189-3194.
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