Mathematical modelling and performance analysis of a novel auto-cascade refrigeration cycle for ultra-low temperature applications

dc.contributor.author	Karacayli, Ibrahim \|\| Altay, Lutfiye \|\| Hepbasli, Arif
dc.date.accessioned	2024-11-13T08:21:44Z
dc.date.available	2024-11-13T08:21:44Z
dc.date.issued	2023
dc.identifier.uri	0
dc.identifier.uri	https://dspace.yasar.edu.tr/handle/20.500.12742/19732
dc.description.abstract	The main objective of this study is to assess both energetically and exergetically the performance of a novel auto-cascade refrigeration (NACR) cycle enhanced by an internal heat exchanger using R290/R170. In contrast to the ACR cycle with a -60 degrees C evaporation temperature, the NACR cycle displays a COP increase of 140.78% and a 148.67% improvement in exergy efficiency. Additionally, there is a notable decrease of 13.77% in compressor discharge temperature. For an evaporation temperature of -55 degrees C, the NACR cycle achieves a COP of 0.403 and an exergy efficiency of 14.61%, with the compressor discharge temperature registering at 126.60 degrees C.
dc.title	Mathematical modelling and performance analysis of a novel auto-cascade refrigeration cycle for ultra-low temperature applications
dc.type	Article
dc.relation.journal	INTERNATIONAL JOURNAL OF EXERGY
dc.identifier.doi	10.1504/IJEX.2023.134611
dc.relation.volume	42
dc.relation.issue	2
dc.description.wosresearcharea	Thermodynamics \|\| Energy & Fuels
dc.identifier.wosid	WOS:001099704000006
dc.contributor.department	Ege University \|\| Ege University \|\| Yasar University
dc.identifier.issue	2
dc.identifier.startpage	229
dc.identifier.endpage	245
dc.identifier.volume	42

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