SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2964793539> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W2964793539 endingPage "3024" @default.
W2964793539 startingPage "3024" @default.
W2964793539 abstract "Several heat-to-power conversion technologies are being proposed as suitable for waste-heat recovery (WHR) applications, including thermoelectric generators, hot-air (e.g., Ericsson or Stirling) engines and vapour-cycle engines such as steam or organic Rankine cycle (ORC) power systems. The latter technology has demonstrated the highest efficiencies at small and intermediate scales and low to medium heat-source temperatures and is considered a suitable option for WHR in relevant applications. However, ORC systems experience variations in performance at part-load or off-design conditions, which need to be predicted accurately by empirical or physics-based models if one is to assess accurately the techno-economic potential of such ORC-WHR solutions. This paper presents results from an experimental investigation of the part-load performance of a 1-kWe ORC engine, operated with R245fa as a working fluid, with the aim of producing high-fidelity steady-state and transient data relating to the operational performance of this system. The experimental apparatus is composed of a rotary-vane pump, brazed-plate evaporator and condenser units and a scroll expander magnetically coupled to a generator with an adjustable resistive load. An electric heater is used to provide a hot oil-stream to the evaporator, supplied at three different temperatures in the current study: 100, 120 and 140 ∘ C. The optimal operating conditions, that is, pump speed and expander load, are determined at various heat-source conditions, thus resulting in a total of 124 steady-state data points used to analyse the part-load performance of the engine. A maximum thermal efficiency of 4.2 ± 0.1% is reported for a heat-source temperature of 120 ∘ C, while a maximum net power output of 508 ± 2 W is obtained for a heat-source temperature at 140 ∘ C. For a 100- ∘ C heat source, a maximum exergy efficiency of 18.7 ± 0.3% is achieved. A detailed exergy analysis allows us to quantify the contribution of each component to the overall exergy destruction. The share of the evaporator, condenser and expander components are all significant for the three heat-source conditions, while the exergy destroyed in the pump is negligible by comparison (below 4%). The data can be used for the development and validation of advanced models capable of steady-state part-load and off-design performance predictions, as well as predictions of the transient/dynamic operation of ORC systems." @default.
W2964793539 created "2019-08-13" @default.
W2964793539 creator A5003621224 @default.
W2964793539 creator A5024979251 @default.
W2964793539 creator A5037728470 @default.
W2964793539 creator A5049555808 @default.
W2964793539 creator A5073531557 @default.
W2964793539 creator A5074805631 @default.
W2964793539 creator A5076340261 @default.
W2964793539 creator A5077232509 @default.
W2964793539 date "2019-07-26" @default.
W2964793539 modified "2023-09-27" @default.
W2964793539 title "Operational Optimisation of a Non-Recuperative 1-kWe Organic Rankine Cycle Engine Prototype" @default.
W2964793539 cites W1971888712 @default.
W2964793539 cites W1980638875 @default.
W2964793539 cites W1986475541 @default.
W2964793539 cites W1986958021 @default.
W2964793539 cites W1998619136 @default.
W2964793539 cites W2003454121 @default.
W2964793539 cites W2012312325 @default.
W2964793539 cites W2018380303 @default.
W2964793539 cites W2028520225 @default.
W2964793539 cites W2030931176 @default.
W2964793539 cites W2051231890 @default.
W2964793539 cites W2072717605 @default.
W2964793539 cites W2079661244 @default.
W2964793539 cites W2089003341 @default.
W2964793539 cites W2091079037 @default.
W2964793539 cites W2118389784 @default.
W2964793539 cites W2182015959 @default.
W2964793539 cites W2191692052 @default.
W2964793539 cites W2338286961 @default.
W2964793539 cites W2409059785 @default.
W2964793539 cites W2509241300 @default.
W2964793539 cites W2521400278 @default.
W2964793539 cites W2522492187 @default.
W2964793539 cites W2529107282 @default.
W2964793539 cites W2552771303 @default.
W2964793539 cites W2563469154 @default.
W2964793539 cites W2567528268 @default.
W2964793539 cites W2568442088 @default.
W2964793539 cites W2601703312 @default.
W2964793539 cites W2602108763 @default.
W2964793539 cites W2607902613 @default.
W2964793539 cites W2725917870 @default.
W2964793539 cites W2738148347 @default.
W2964793539 cites W2739141341 @default.
W2964793539 cites W2742221247 @default.
W2964793539 cites W2766250908 @default.
W2964793539 cites W2773339123 @default.
W2964793539 cites W2790533432 @default.
W2964793539 cites W2791530775 @default.
W2964793539 cites W2801736377 @default.
W2964793539 cites W2809945429 @default.
W2964793539 cites W2828143518 @default.
W2964793539 cites W2884834401 @default.
W2964793539 cites W2886888030 @default.
W2964793539 cites W2887151120 @default.
W2964793539 cites W2888060913 @default.
W2964793539 cites W2912893625 @default.
W2964793539 cites W2922167247 @default.
W2964793539 cites W2944847888 @default.
W2964793539 cites W2945307784 @default.
W2964793539 doi "https://doi.org/10.3390/app9153024" @default.
W2964793539 hasPublicationYear "2019" @default.
W2964793539 type Work @default.
W2964793539 sameAs 2964793539 @default.
W2964793539 citedByCount "12" @default.
W2964793539 countsByYear W29647935392020 @default.
W2964793539 countsByYear W29647935392021 @default.
W2964793539 countsByYear W29647935392022 @default.
W2964793539 countsByYear W29647935392023 @default.
W2964793539 crossrefType "journal-article" @default.
W2964793539 hasAuthorship W2964793539A5003621224 @default.
W2964793539 hasAuthorship W2964793539A5024979251 @default.
W2964793539 hasAuthorship W2964793539A5037728470 @default.
W2964793539 hasAuthorship W2964793539A5049555808 @default.
W2964793539 hasAuthorship W2964793539A5073531557 @default.
W2964793539 hasAuthorship W2964793539A5074805631 @default.
W2964793539 hasAuthorship W2964793539A5076340261 @default.
W2964793539 hasAuthorship W2964793539A5077232509 @default.
W2964793539 hasBestOaLocation W29647935391 @default.
W2964793539 hasConcept C101519877 @default.
W2964793539 hasConcept C105994980 @default.
W2964793539 hasConcept C107706546 @default.
W2964793539 hasConcept C116915560 @default.
W2964793539 hasConcept C120665830 @default.
W2964793539 hasConcept C121332964 @default.
W2964793539 hasConcept C127413603 @default.
W2964793539 hasConcept C161911898 @default.
W2964793539 hasConcept C163258240 @default.
W2964793539 hasConcept C171146098 @default.
W2964793539 hasConcept C184235594 @default.
W2964793539 hasConcept C21880701 @default.
W2964793539 hasConcept C27134321 @default.
W2964793539 hasConcept C2779301550 @default.
W2964793539 hasConcept C2780934509 @default.
W2964793539 hasConcept C2982854487 @default.