SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4214832872> ?p ?o ?g. }

Showing items 1 to 95 of 95 with 100 items per page.

W4214832872 endingPage "100207" @default.
W4214832872 startingPage "100207" @default.
W4214832872 abstract "This work presents a detailed thermodynamic analysis of a triple cascade vapor refrigeration system (TCRS) utilizing hydrocarbon refrigerants for ultra-low temperature application. Different hydrocarbon refrigerants pairs are used in different circuits (High temperature circuit HTC, Mid temperature circuit MTC, and Low temperature circuit LTC) to obtain the most suitable refrigerant combination by mathematical modeling of the system. The design and operating parameters considered in this study include (1) evaporator temperature (2) LTC condensation temperature (3) MTC condensation temperature. A thermodynamic analysis consisting of energy and exergy analysis were employed in terms of operating conditions to obtain COP, total compressor work, exergy efficiency, total exergy destruction, mass flow rate and discharge temperatures of compressors. Furthermore, an analysis on component exergy destruction was conducted to show the possibilities of improvement of TCRS utilizing the hydrocarbon refrigerants. The results suggest that at different evaporator temperatures different hydrocarbon refrigerants on TCRS give higher COP and exergy efficiency. The highest COP and exergy efficiency at −100 °C evaporator temperature was calculated to be 0.5931 and 54.446 %, respectively. This study also suggests that hydrocarbon refrigerants can be used in ultra-low temperature applications without compromising the thermodynamic performance of the refrigeration system." @default.
W4214832872 created "2022-03-05" @default.
W4214832872 creator A5000969329 @default.
W4214832872 creator A5029928967 @default.
W4214832872 creator A5034446307 @default.
W4214832872 creator A5046346103 @default.
W4214832872 creator A5086765610 @default.
W4214832872 date "2022-05-01" @default.
W4214832872 modified "2023-09-28" @default.
W4214832872 title "Thermodynamic assessment of a triple cascade refrigeration system utilizing hydrocarbon refrigerants for ultra-low temperature applications" @default.
W4214832872 cites W1525076949 @default.
W4214832872 cites W1556716229 @default.
W4214832872 cites W1969716900 @default.
W4214832872 cites W1973945391 @default.
W4214832872 cites W1994495064 @default.
W4214832872 cites W2002252058 @default.
W4214832872 cites W2006351198 @default.
W4214832872 cites W2013749129 @default.
W4214832872 cites W2019745682 @default.
W4214832872 cites W2035678354 @default.
W4214832872 cites W2039604893 @default.
W4214832872 cites W2042754024 @default.
W4214832872 cites W2049717348 @default.
W4214832872 cites W2065893782 @default.
W4214832872 cites W2077642387 @default.
W4214832872 cites W2078608045 @default.
W4214832872 cites W2085961875 @default.
W4214832872 cites W2135536698 @default.
W4214832872 cites W2215950266 @default.
W4214832872 cites W2598855467 @default.
W4214832872 cites W2888662419 @default.
W4214832872 cites W2905809939 @default.
W4214832872 cites W2960560747 @default.
W4214832872 cites W2990514096 @default.
W4214832872 cites W3107083807 @default.
W4214832872 cites W3128879691 @default.
W4214832872 cites W3141958268 @default.
W4214832872 cites W4210989994 @default.
W4214832872 cites W1999291369 @default.
W4214832872 doi "https://doi.org/10.1016/j.ecmx.2022.100207" @default.
W4214832872 hasPublicationYear "2022" @default.
W4214832872 type Work @default.
W4214832872 citedByCount "2" @default.
W4214832872 countsByYear W42148328722023 @default.
W4214832872 crossrefType "journal-article" @default.
W4214832872 hasAuthorship W4214832872A5000969329 @default.
W4214832872 hasAuthorship W4214832872A5029928967 @default.
W4214832872 hasAuthorship W4214832872A5034446307 @default.
W4214832872 hasAuthorship W4214832872A5046346103 @default.
W4214832872 hasAuthorship W4214832872A5086765610 @default.
W4214832872 hasBestOaLocation W42148328721 @default.
W4214832872 hasConcept C113146524 @default.
W4214832872 hasConcept C121332964 @default.
W4214832872 hasConcept C127413603 @default.
W4214832872 hasConcept C131097465 @default.
W4214832872 hasConcept C185592680 @default.
W4214832872 hasConcept C18762648 @default.
W4214832872 hasConcept C199499590 @default.
W4214832872 hasConcept C21880701 @default.
W4214832872 hasConcept C69907114 @default.
W4214832872 hasConcept C83119724 @default.
W4214832872 hasConcept C91311341 @default.
W4214832872 hasConcept C97355855 @default.
W4214832872 hasConceptScore W4214832872C113146524 @default.
W4214832872 hasConceptScore W4214832872C121332964 @default.
W4214832872 hasConceptScore W4214832872C127413603 @default.
W4214832872 hasConceptScore W4214832872C131097465 @default.
W4214832872 hasConceptScore W4214832872C185592680 @default.
W4214832872 hasConceptScore W4214832872C18762648 @default.
W4214832872 hasConceptScore W4214832872C199499590 @default.
W4214832872 hasConceptScore W4214832872C21880701 @default.
W4214832872 hasConceptScore W4214832872C69907114 @default.
W4214832872 hasConceptScore W4214832872C83119724 @default.
W4214832872 hasConceptScore W4214832872C91311341 @default.
W4214832872 hasConceptScore W4214832872C97355855 @default.
W4214832872 hasLocation W42148328721 @default.
W4214832872 hasLocation W42148328722 @default.
W4214832872 hasOpenAccess W4214832872 @default.
W4214832872 hasPrimaryLocation W42148328721 @default.
W4214832872 hasRelatedWork W1845298131 @default.
W4214832872 hasRelatedWork W2049137378 @default.
W4214832872 hasRelatedWork W2103329143 @default.
W4214832872 hasRelatedWork W2109508892 @default.
W4214832872 hasRelatedWork W2769443789 @default.
W4214832872 hasRelatedWork W2967589715 @default.
W4214832872 hasRelatedWork W3170465130 @default.
W4214832872 hasRelatedWork W4210848266 @default.
W4214832872 hasRelatedWork W4315471439 @default.
W4214832872 hasRelatedWork W2184218061 @default.
W4214832872 hasVolume "14" @default.
W4214832872 isParatext "false" @default.
W4214832872 isRetracted "false" @default.
W4214832872 workType "article" @default.