SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4296645315> ?p ?o ?g. }

Showing items 1 to 100 of ±126 with 100 items per page.

W4296645315 endingPage "4781" @default.
W4296645315 startingPage "4768" @default.
W4296645315 abstract "Abstract This study aims to investigate the effect of the various heat source temperature ( T max ) on thermal efficiency ( η th ) for the organic rankine cycle (ORC), trilateral flash cycle (TFC), and partial evaporator (PE‐ORC). For this purpose, HFE7000, HFE7100, and HFE7500 were used as working fluids (WFs). The results indicate that by using HFE7000, the maximum η th was obtained for all used power cycles and temperature ranges. Compared to HFE7100, HFE7500 has higher η th at TFC, and PE‐ORC at low T max , while HFE7100 has the maximum value at high T max . The η th at T max = 353 K for TFC were 8.71%, 8.34%, and 8.59%, while for ORC 12.38%, 11.82%, and 11.71% for HFE7000, HFE7100, and HFE7500, respectively. At T max = 423 K for TFC were 17.65%, 16.26%, and 16.52%, while for ORC were 18.56%, 17.38%, and 16.59% for HFE7000, HFE7100, and HFE7500, respectively. The η th results indicate that the maximum improvement at TFC by using HFE7000, and the minimum was at HFE7100, while for ORC, the maximum was at HFE7000, and the minimum was at HFE7500. Therefore, the HFE7000 fluid behaves as normal dry fluids at any used temperature, while HFE7100 as normal dry WFs at low T max while behaving as very dry WFs at T max extremely close to its T cr . HFE7500 behaves as very dry working fluids. The η th intersections temperature was at T max = 425.2 K and T max = 455.9 K for HFE7500 and HFE7100, respectively. However, there is no η th intersection for HFE7000." @default.
W4296645315 created "2022-09-23" @default.
W4296645315 creator A5035070993 @default.
W4296645315 date "2022-09-22" @default.
W4296645315 modified "2023-09-26" @default.
W4296645315 title "Assessment of the thermal efficiency of subcritical power generation cycles using environmentally friendly fluids at various heat source temperatures" @default.
W4296645315 cites W1738699292 @default.
W4296645315 cites W1764487931 @default.
W4296645315 cites W1778387613 @default.
W4296645315 cites W1872948786 @default.
W4296645315 cites W1947702711 @default.
W4296645315 cites W2003454121 @default.
W4296645315 cites W2006801794 @default.
W4296645315 cites W2037789640 @default.
W4296645315 cites W2045895965 @default.
W4296645315 cites W2048164164 @default.
W4296645315 cites W2065776367 @default.
W4296645315 cites W2065868361 @default.
W4296645315 cites W2070651732 @default.
W4296645315 cites W2095320236 @default.
W4296645315 cites W2110069242 @default.
W4296645315 cites W2127746613 @default.
W4296645315 cites W2254442987 @default.
W4296645315 cites W2423397681 @default.
W4296645315 cites W2520427104 @default.
W4296645315 cites W2620990846 @default.
W4296645315 cites W2735792857 @default.
W4296645315 cites W2762922266 @default.
W4296645315 cites W2779014686 @default.
W4296645315 cites W2787162921 @default.
W4296645315 cites W2791636963 @default.
W4296645315 cites W2807272082 @default.
W4296645315 cites W2811478871 @default.
W4296645315 cites W2886440798 @default.
W4296645315 cites W2905071542 @default.
W4296645315 cites W2908027538 @default.
W4296645315 cites W2913657556 @default.
W4296645315 cites W2913829457 @default.
W4296645315 cites W2944543286 @default.
W4296645315 cites W2945756630 @default.
W4296645315 cites W2968710158 @default.
W4296645315 cites W2995851903 @default.
W4296645315 cites W2999544692 @default.
W4296645315 cites W3003928986 @default.
W4296645315 cites W3007723471 @default.
W4296645315 cites W3019358002 @default.
W4296645315 cites W3019414808 @default.
W4296645315 cites W3022064126 @default.
W4296645315 cites W3025982926 @default.
W4296645315 cites W3034565038 @default.
W4296645315 cites W3043291028 @default.
W4296645315 cites W3111820461 @default.
W4296645315 cites W3123672135 @default.
W4296645315 cites W3157738860 @default.
W4296645315 cites W3158782969 @default.
W4296645315 cites W3164805172 @default.
W4296645315 cites W3169493281 @default.
W4296645315 cites W3176222106 @default.
W4296645315 cites W3195449026 @default.
W4296645315 cites W3205738213 @default.
W4296645315 cites W3207331519 @default.
W4296645315 cites W3212192052 @default.
W4296645315 cites W3213658985 @default.
W4296645315 cites W4200143962 @default.
W4296645315 cites W4205776252 @default.
W4296645315 cites W4210710257 @default.
W4296645315 cites W4210803464 @default.
W4296645315 cites W4211020016 @default.
W4296645315 cites W4213102902 @default.
W4296645315 cites W4221041790 @default.
W4296645315 cites W4280496094 @default.
W4296645315 doi "https://doi.org/10.1002/ese3.1307" @default.
W4296645315 hasPublicationYear "2022" @default.
W4296645315 type Work @default.
W4296645315 citedByCount "3" @default.
W4296645315 countsByYear W42966453152023 @default.
W4296645315 crossrefType "journal-article" @default.
W4296645315 hasAuthorship W4296645315A5035070993 @default.
W4296645315 hasBestOaLocation W42966453151 @default.
W4296645315 hasConcept C101519877 @default.
W4296645315 hasConcept C107706546 @default.
W4296645315 hasConcept C113196181 @default.
W4296645315 hasConcept C121332964 @default.
W4296645315 hasConcept C163258240 @default.
W4296645315 hasConcept C185592680 @default.
W4296645315 hasConcept C192562407 @default.
W4296645315 hasConcept C2779301550 @default.
W4296645315 hasConcept C423512 @default.
W4296645315 hasConcept C43617362 @default.
W4296645315 hasConcept C44431628 @default.
W4296645315 hasConcept C91311341 @default.
W4296645315 hasConcept C97355855 @default.
W4296645315 hasConceptScore W4296645315C101519877 @default.
W4296645315 hasConceptScore W4296645315C107706546 @default.
W4296645315 hasConceptScore W4296645315C113196181 @default.
W4296645315 hasConceptScore W4296645315C121332964 @default.
W4296645315 hasConceptScore W4296645315C163258240 @default.
W4296645315 hasConceptScore W4296645315C185592680 @default.