SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3208480650> ?p ?o ?g. }

Showing items 1 to 100 of ±102 with 100 items per page.

W3208480650 endingPage "2300" @default.
W3208480650 startingPage "2287" @default.
W3208480650 abstract "Energy quality in each country is one of the important indicators of economic development, Which affects the economic growth of that country. Exergy analysis, considering all flow properties including pressure, temperature, composition, is a powerful way to evaluate the energy consumption of equipment such as natural gas and liquefied gas plants. Inefficiency of a system can be defined by the conventional exergy analysis method, while, irreversible resources and real potentials for system improvement can only be identified by the advanced exergy analysis method. This analysis splits conventional exergy destruction into two exogenous and endogenous parts according to origin, and also unavoidable and avoidable parts according to the ability to remove and modifications. In this method, the exergy concept was separated by considering the ideal and avoidable condition assumptions. As a real case study, a natural gas liquid plant 800, from National Iranian South Oil Company located in southwest of Iran was considered to be investigated by conventional exergy analysis, advanced exergy analysis methods. The results of conventional exergy analysis illustrated that the highest amount of exergy destruction belonged to compressor and heat exchanger with 509.99 kW and 629.04 kW, respectively. However, in the case of heat exchanger, despite having the highest rate of exergy destruction, it is not considered in modification priorities due to its low avoidable exergy destruction value. Also, advanced exergy analysis suggested that the exergy destruction of the compressor and heat exchanger will be reduced by improving performance of these components." @default.
W3208480650 created "2021-11-08" @default.
W3208480650 creator A5016129065 @default.
W3208480650 creator A5046335470 @default.
W3208480650 creator A5067952387 @default.
W3208480650 creator A5070736516 @default.
W3208480650 date "2022-01-01" @default.
W3208480650 modified "2023-10-18" @default.
W3208480650 title "Advanced exergy analysis of the natural gas liquid recovery process" @default.
W3208480650 cites W100534544 @default.
W3208480650 cites W1502532894 @default.
W3208480650 cites W1917675112 @default.
W3208480650 cites W1964703701 @default.
W3208480650 cites W1973201084 @default.
W3208480650 cites W1975822846 @default.
W3208480650 cites W1979828524 @default.
W3208480650 cites W1981942503 @default.
W3208480650 cites W1987680272 @default.
W3208480650 cites W2046632260 @default.
W3208480650 cites W2052466345 @default.
W3208480650 cites W2072409720 @default.
W3208480650 cites W2108244105 @default.
W3208480650 cites W2216958944 @default.
W3208480650 cites W2345892898 @default.
W3208480650 cites W2380295115 @default.
W3208480650 cites W2470137799 @default.
W3208480650 cites W2491134117 @default.
W3208480650 cites W2509266907 @default.
W3208480650 cites W2520304806 @default.
W3208480650 cites W2530094407 @default.
W3208480650 cites W2554208579 @default.
W3208480650 cites W2563626325 @default.
W3208480650 cites W2569996227 @default.
W3208480650 cites W2570266837 @default.
W3208480650 cites W2611423935 @default.
W3208480650 cites W2619230834 @default.
W3208480650 cites W2748172779 @default.
W3208480650 cites W2767995117 @default.
W3208480650 cites W2778145389 @default.
W3208480650 cites W2778752948 @default.
W3208480650 cites W2790436695 @default.
W3208480650 cites W2897957636 @default.
W3208480650 cites W2900864087 @default.
W3208480650 cites W2918730260 @default.
W3208480650 cites W2966034273 @default.
W3208480650 cites W2997048135 @default.
W3208480650 cites W3046814196 @default.
W3208480650 doi "https://doi.org/10.2298/tsci210522311j" @default.
W3208480650 hasPublicationYear "2022" @default.
W3208480650 type Work @default.
W3208480650 sameAs 3208480650 @default.
W3208480650 citedByCount "2" @default.
W3208480650 countsByYear W32084806502022 @default.
W3208480650 crossrefType "journal-article" @default.
W3208480650 hasAuthorship W3208480650A5016129065 @default.
W3208480650 hasAuthorship W3208480650A5046335470 @default.
W3208480650 hasAuthorship W3208480650A5067952387 @default.
W3208480650 hasAuthorship W3208480650A5070736516 @default.
W3208480650 hasBestOaLocation W32084806501 @default.
W3208480650 hasConcept C107706546 @default.
W3208480650 hasConcept C113146524 @default.
W3208480650 hasConcept C127413603 @default.
W3208480650 hasConcept C131097465 @default.
W3208480650 hasConcept C14034172 @default.
W3208480650 hasConcept C21880701 @default.
W3208480650 hasConcept C39432304 @default.
W3208480650 hasConcept C548081761 @default.
W3208480650 hasConcept C59427239 @default.
W3208480650 hasConcept C78519656 @default.
W3208480650 hasConcept C83119724 @default.
W3208480650 hasConceptScore W3208480650C107706546 @default.
W3208480650 hasConceptScore W3208480650C113146524 @default.
W3208480650 hasConceptScore W3208480650C127413603 @default.
W3208480650 hasConceptScore W3208480650C131097465 @default.
W3208480650 hasConceptScore W3208480650C14034172 @default.
W3208480650 hasConceptScore W3208480650C21880701 @default.
W3208480650 hasConceptScore W3208480650C39432304 @default.
W3208480650 hasConceptScore W3208480650C548081761 @default.
W3208480650 hasConceptScore W3208480650C59427239 @default.
W3208480650 hasConceptScore W3208480650C78519656 @default.
W3208480650 hasConceptScore W3208480650C83119724 @default.
W3208480650 hasIssue "3 Part A" @default.
W3208480650 hasLocation W32084806501 @default.
W3208480650 hasOpenAccess W3208480650 @default.
W3208480650 hasPrimaryLocation W32084806501 @default.
W3208480650 hasRelatedWork W2026497626 @default.
W3208480650 hasRelatedWork W2200036290 @default.
W3208480650 hasRelatedWork W2387071983 @default.
W3208480650 hasRelatedWork W2587246105 @default.
W3208480650 hasRelatedWork W2894889692 @default.
W3208480650 hasRelatedWork W2900907148 @default.
W3208480650 hasRelatedWork W2979162614 @default.
W3208480650 hasRelatedWork W3008157693 @default.
W3208480650 hasRelatedWork W4210731288 @default.
W3208480650 hasRelatedWork W4385445041 @default.
W3208480650 hasVolume "26" @default.
W3208480650 isParatext "false" @default.
W3208480650 isRetracted "false" @default.