FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2986136554> ?p ?o ?g. }

• W2986136554 endingPage "151" @default.
• W2986136554 startingPage "137" @default.
• W2986136554 abstract "In order for a solar heating system to provide heat immediately after sunrise, a fast response is needed to the heat demand of a serviced space. The majority of existing solar heating systems have a slow response time due to the large volume of water stored in the heat storage/exchanger unit (HSEU). This leads to a slow heat delivery cycle, which results in discomfort for the occupants and thus creates a huge barrier to the wide deployment of solar heating systems. To overcome this critical issue, a novel interactive heat storage/exchanging unit (HSEU) employing a double-tank configuration was developed. Unlike conventional HSEUs, which have a single tank acting as the heat storage and exchanging unit, the new HSEU is comprised of a small tank for heat exchange combined with a large tank for heat storage. The small tank enables fast transfer of solar heat to the heating loop fluid without having to heat up the large volume of water in the entire HSEU tank, whilst the large tank is used to store and exchange heat between itself and the small tank using a temperature-oriented control mechanism. To test the proposed design, the heat transfer between the first (solar loop) and second (heating loop) fluids, the heat and mass transfer between the small and large tank and the associated operational strategy were investigated experimentally and theoretically for comparison. A conventional single tank HSEU requires around 120 min to deliver heat to a served space, whilst the new interactive double-tank HSEU can provide heat to the served space in around 20 min, thus creating a heating system which can respond significantly faster than traditional systems. The investigation of the heat exchange effect between the solar and heating loop fluids showed that the new HSEU achieved a convective heat transfer coefficient of as high as 391 W/m 2 ·K, which is 551% higher than that of a conventional tank. As a result, the solar thermal efficiency of the solar panel-array in the new HSEU based system was increased by 7.5% compared to conventional HSEU based systems. • A novel fast-responsive heat storage/exchanging unit (HSEU) is proposed. • It is the first time a small tank for heat transfer is used in a large storage tank. • Experimental tests on the prototype have been conducted. • The HSEU can save 140 min for a temperature increment of 10 °C. • The concept of fast-responsive storage for solar heating systems is demonstrated." @default.
• W2986136554 created "2019-11-22" @default.
• W2986136554 creator A5010350116 @default.
• W2986136554 creator A5012677271 @default.
• W2986136554 creator A5013272400 @default.
• W2986136554 creator A5030870041 @default.
• W2986136554 creator A5038978129 @default.
• W2986136554 creator A5040955123 @default.
• W2986136554 creator A5042390379 @default.
• W2986136554 creator A5049876081 @default.
• W2986136554 creator A5050613874 @default.
• W2986136554 creator A5062431247 @default.
• W2986136554 creator A5065294895 @default.
• W2986136554 creator A5073785548 @default.
• W2986136554 creator A5075867894 @default.
• W2986136554 creator A5079079575 @default.
• W2986136554 date "2020-05-01" @default.
• W2986136554 modified "2023-10-18" @default.
• W2986136554 title "Operational performance of a novel fast-responsive heat storage/exchanging unit (HSEU) for solar heating systems" @default.
• W2986136554 cites W1016485435 @default.
• W2986136554 cites W1988480351 @default.
• W2986136554 cites W1995549016 @default.
• W2986136554 cites W2005298546 @default.
• W2986136554 cites W2005729873 @default.
• W2986136554 cites W2070240686 @default.
• W2986136554 cites W2084237085 @default.
• W2986136554 cites W2163755005 @default.
• W2986136554 cites W2285761021 @default.
• W2986136554 cites W2558802666 @default.
• W2986136554 cites W2560836958 @default.
• W2986136554 cites W2612340571 @default.
• W2986136554 cites W2742977327 @default.
• W2986136554 cites W2754173698 @default.
• W2986136554 cites W2766050114 @default.
• W2986136554 cites W2789696338 @default.
• W2986136554 cites W2792332861 @default.
• W2986136554 cites W2871448853 @default.
• W2986136554 cites W2885834809 @default.
• W2986136554 cites W2887651373 @default.
• W2986136554 cites W2901797536 @default.
• W2986136554 cites W2906923123 @default.
• W2986136554 doi "https://doi.org/10.1016/j.renene.2019.11.007" @default.
• W2986136554 hasPublicationYear "2020" @default.
• W2986136554 type Work @default.
• W2986136554 sameAs 2986136554 @default.
• W2986136554 citedByCount "2" @default.
• W2986136554 countsByYear W29861365542021 @default.
• W2986136554 countsByYear W29861365542022 @default.
• W2986136554 crossrefType "journal-article" @default.
• W2986136554 hasAuthorship W2986136554A5010350116 @default.
• W2986136554 hasAuthorship W2986136554A5012677271 @default.
• W2986136554 hasAuthorship W2986136554A5013272400 @default.
• W2986136554 hasAuthorship W2986136554A5030870041 @default.
• W2986136554 hasAuthorship W2986136554A5038978129 @default.
• W2986136554 hasAuthorship W2986136554A5040955123 @default.
• W2986136554 hasAuthorship W2986136554A5042390379 @default.
• W2986136554 hasAuthorship W2986136554A5049876081 @default.
• W2986136554 hasAuthorship W2986136554A5050613874 @default.
• W2986136554 hasAuthorship W2986136554A5062431247 @default.
• W2986136554 hasAuthorship W2986136554A5065294895 @default.
• W2986136554 hasAuthorship W2986136554A5073785548 @default.
• W2986136554 hasAuthorship W2986136554A5075867894 @default.
• W2986136554 hasAuthorship W2986136554A5079079575 @default.
• W2986136554 hasBestOaLocation W29861365542 @default.
• W2986136554 hasConcept C107706546 @default.
• W2986136554 hasConcept C116915560 @default.
• W2986136554 hasConcept C121332964 @default.
• W2986136554 hasConcept C127413603 @default.
• W2986136554 hasConcept C16629374 @default.
• W2986136554 hasConcept C183287310 @default.
• W2986136554 hasConcept C21880701 @default.
• W2986136554 hasConcept C39432304 @default.
• W2986136554 hasConcept C50517652 @default.
• W2986136554 hasConcept C57879066 @default.
• W2986136554 hasConcept C78519656 @default.
• W2986136554 hasConcept C97355855 @default.
• W2986136554 hasConceptScore W2986136554C107706546 @default.
• W2986136554 hasConceptScore W2986136554C116915560 @default.
• W2986136554 hasConceptScore W2986136554C121332964 @default.
• W2986136554 hasConceptScore W2986136554C127413603 @default.
• W2986136554 hasConceptScore W2986136554C16629374 @default.
• W2986136554 hasConceptScore W2986136554C183287310 @default.
• W2986136554 hasConceptScore W2986136554C21880701 @default.
• W2986136554 hasConceptScore W2986136554C39432304 @default.
• W2986136554 hasConceptScore W2986136554C50517652 @default.
• W2986136554 hasConceptScore W2986136554C57879066 @default.
• W2986136554 hasConceptScore W2986136554C78519656 @default.
• W2986136554 hasConceptScore W2986136554C97355855 @default.
• W2986136554 hasLocation W29861365541 @default.
• W2986136554 hasLocation W29861365542 @default.
• W2986136554 hasLocation W29861365543 @default.
• W2986136554 hasLocation W29861365544 @default.
• W2986136554 hasOpenAccess W2986136554 @default.
• W2986136554 hasPrimaryLocation W29861365541 @default.
• W2986136554 hasRelatedWork W1981396419 @default.
• W2986136554 hasRelatedWork W2065051874 @default.
• W2986136554 hasRelatedWork W206916600 @default.
• W2986136554 hasRelatedWork W2902122534 @default.

• next