FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2890811770> ?p ?o ?g. }

• W2890811770 endingPage "2873" @default.
• W2890811770 startingPage "2865" @default.
• W2890811770 abstract "Abstract The rising share of renewable energy sources in power generation leads to the need of energy storage capacities. In this context, also some interest in thermal energy storages, especially in a concept called pumped heat electricity storage (PHES), arises. One possible design of such a PHES system consists of a compression heat pump (HP), a thermal storage and an organic Rankine cycle (ORC). The present work analyses the general thermodynamic potential and limits of such a system by means of realistic simple Rankine cycles. The potential analysis starts with the optimal case of combining two reversible Rankine cycles with reversible heat transfer. Afterwards Rankine cycles are transferred to more realistic cycles by taking temperature differences between heat sink and source and the cycles, respectively into account (irreversible heat transfer). For this case the relation between power output of the discharging cycle and the efficiency of the entire process is analysed. In order to ensure optimal conditions, the considered working fluids are always optimal hypothetical fluids, which are defined by their critical point and some further parameters. In an inverse engineering approach, these parameters are numerically optimized, with respect to cycle efficiency and meeting several boundary conditions. It is shown that the total or roundtrip efficiencies, which are defined by the quotient of the rejected work and the stored work, are between 56% and 37% for a power output of 80% of the maximal value and decrease with increasing storage temperatures, in contrast to a Carnot cycle analysis. A further expansion of the investigation considers the influence of the isentropic efficiencies of the ORC expander and the HP compressor on the process efficiency. Here, a stronger sensitivity of the isentropic efficiency of the ORC expander on the roundtrip efficiency was found." @default.
• W2890811770 created "2018-09-27" @default.
• W2890811770 creator A5010364288 @default.
• W2890811770 creator A5041521847 @default.
• W2890811770 creator A5059081943 @default.
• W2890811770 date "2020-03-01" @default.
• W2890811770 modified "2023-09-27" @default.
• W2890811770 title "Potential analysis of pumped heat electricity storages regarding thermodynamic efficiency" @default.
• W2890811770 cites W1992165194 @default.
• W2890811770 cites W2008571569 @default.
• W2890811770 cites W2013629132 @default.
• W2890811770 cites W2041068408 @default.
• W2890811770 cites W2048164164 @default.
• W2890811770 cites W2054266351 @default.
• W2890811770 cites W2077468892 @default.
• W2890811770 cites W2078223313 @default.
• W2890811770 cites W2084255008 @default.
• W2890811770 cites W2088355572 @default.
• W2890811770 cites W2110069242 @default.
• W2890811770 cites W2295333905 @default.
• W2890811770 cites W2324428522 @default.
• W2890811770 cites W2491281309 @default.
• W2890811770 cites W2502052623 @default.
• W2890811770 cites W2580192888 @default.
• W2890811770 cites W2610955015 @default.
• W2890811770 cites W2727834318 @default.
• W2890811770 cites W2735515108 @default.
• W2890811770 cites W2753303121 @default.
• W2890811770 cites W2755666291 @default.
• W2890811770 doi "https://doi.org/10.1016/j.renene.2018.09.023" @default.
• W2890811770 hasPublicationYear "2020" @default.
• W2890811770 type Work @default.
• W2890811770 sameAs 2890811770 @default.
• W2890811770 citedByCount "19" @default.
• W2890811770 countsByYear W28908117702017 @default.
• W2890811770 countsByYear W28908117702020 @default.
• W2890811770 countsByYear W28908117702021 @default.
• W2890811770 countsByYear W28908117702022 @default.
• W2890811770 countsByYear W28908117702023 @default.
• W2890811770 crossrefType "journal-article" @default.
• W2890811770 hasAuthorship W2890811770A5010364288 @default.
• W2890811770 hasAuthorship W2890811770A5041521847 @default.
• W2890811770 hasAuthorship W2890811770A5059081943 @default.
• W2890811770 hasConcept C116915560 @default.
• W2890811770 hasConcept C119599485 @default.
• W2890811770 hasConcept C121332964 @default.
• W2890811770 hasConcept C127413603 @default.
• W2890811770 hasConcept C206658404 @default.
• W2890811770 hasConcept C21880701 @default.
• W2890811770 hasConcept C39432304 @default.
• W2890811770 hasConcept C548081761 @default.
• W2890811770 hasConcept C97355855 @default.
• W2890811770 hasConceptScore W2890811770C116915560 @default.
• W2890811770 hasConceptScore W2890811770C119599485 @default.
• W2890811770 hasConceptScore W2890811770C121332964 @default.
• W2890811770 hasConceptScore W2890811770C127413603 @default.
• W2890811770 hasConceptScore W2890811770C206658404 @default.
• W2890811770 hasConceptScore W2890811770C21880701 @default.
• W2890811770 hasConceptScore W2890811770C39432304 @default.
• W2890811770 hasConceptScore W2890811770C548081761 @default.
• W2890811770 hasConceptScore W2890811770C97355855 @default.
• W2890811770 hasLocation W28908117701 @default.
• W2890811770 hasOpenAccess W2890811770 @default.
• W2890811770 hasPrimaryLocation W28908117701 @default.
• W2890811770 hasRelatedWork W2084552136 @default.
• W2890811770 hasRelatedWork W2372154829 @default.
• W2890811770 hasRelatedWork W2593282318 @default.
• W2890811770 hasRelatedWork W2789921011 @default.
• W2890811770 hasRelatedWork W2790427437 @default.
• W2890811770 hasRelatedWork W3092559115 @default.
• W2890811770 hasRelatedWork W4221040804 @default.
• W2890811770 hasRelatedWork W4229336662 @default.
• W2890811770 hasRelatedWork W4251023606 @default.
• W2890811770 hasRelatedWork W4293877047 @default.
• W2890811770 hasVolume "147" @default.
• W2890811770 isParatext "false" @default.
• W2890811770 isRetracted "false" @default.
• W2890811770 magId "2890811770" @default.
• W2890811770 workType "article" @default.