SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3049072834> ?p ?o ?g. }

Showing items 1 to 100 of ±112 with 100 items per page.

W3049072834 endingPage "115647" @default.
W3049072834 startingPage "115647" @default.
W3049072834 abstract "Abstract Semi-Transparent Photovoltaics (STPV) can be integrated on Double Skin Facades (DSF) to enhance the energy performance of a building. The integrated STPV can simultaneously control solar gains and generate electricity. The optimal operation of the DSF through control of the air flow can enhance the heat extraction from the DSF during heating season, increase the electrical and thermal efficiency of the system, and decrease the heating load of the building. In the present study, the lack of literature in the development of an average Nusselt number correlations for DSF integrating STPV (DSF-STPV) is identified and a new index which corresponds to the heat that is recovered is introduced and is distinguished from the thermal efficiency of the system. Also, in the present study, average Nusselt number correlations for air flow in DSF with STPV are experimentally developed, using a full-scale outdoor test facility. The effect of the incident solar radiation, the wind driven exterior convection and the ambient temperature have been taken into consideration in the development of these convective heat transfer correlations. The properties of the materials of the DSF are also taken into consideration such as the transmittance of the STPV, the PV cell efficiency and the thermal conductance of the glazing. In this process, a new dimensionless number is defined to generalize the results, particularly for the expected operating conditions. The Nusselt number correlations are then used for a sensitivity analysis for different wind speeds and for the assessment of the thermal performance of the system. The heat losses of a typical building in comparison to a building that integrates DSF-STPV can be 20% higher resulting in losses that reach values of 8 W/m2 of facade area. The heat recovery index can reach more than 30% and the total solar utilization efficiency can be between 30% and 77% for different experimental conditions." @default.
W3049072834 created "2020-08-21" @default.
W3049072834 creator A5000575904 @default.
W3049072834 creator A5005342322 @default.
W3049072834 creator A5067977155 @default.
W3049072834 creator A5078434216 @default.
W3049072834 date "2020-11-01" @default.
W3049072834 modified "2023-10-17" @default.
W3049072834 title "Double skin façade integrating semi-transparent photovoltaics: Experimental study on forced convection and heat recovery" @default.
W3049072834 cites W1963906169 @default.
W3049072834 cites W1966061787 @default.
W3049072834 cites W1969756860 @default.
W3049072834 cites W1976800654 @default.
W3049072834 cites W1987013206 @default.
W3049072834 cites W1987093908 @default.
W3049072834 cites W1996674162 @default.
W3049072834 cites W1997243925 @default.
W3049072834 cites W1997460517 @default.
W3049072834 cites W1999724770 @default.
W3049072834 cites W2001027137 @default.
W3049072834 cites W2001046097 @default.
W3049072834 cites W2004526652 @default.
W3049072834 cites W2005699809 @default.
W3049072834 cites W2011444891 @default.
W3049072834 cites W2017966252 @default.
W3049072834 cites W2027993627 @default.
W3049072834 cites W2034193499 @default.
W3049072834 cites W2041014363 @default.
W3049072834 cites W2044033979 @default.
W3049072834 cites W2048358130 @default.
W3049072834 cites W2048525794 @default.
W3049072834 cites W2049877636 @default.
W3049072834 cites W2051494822 @default.
W3049072834 cites W2061888825 @default.
W3049072834 cites W2076933677 @default.
W3049072834 cites W2082897876 @default.
W3049072834 cites W2083170490 @default.
W3049072834 cites W2086062358 @default.
W3049072834 cites W2086131322 @default.
W3049072834 cites W2086338665 @default.
W3049072834 cites W2094760074 @default.
W3049072834 cites W2095562100 @default.
W3049072834 cites W2149958731 @default.
W3049072834 cites W2151681281 @default.
W3049072834 cites W2210760631 @default.
W3049072834 cites W2231329627 @default.
W3049072834 cites W2290866904 @default.
W3049072834 cites W2593610183 @default.
W3049072834 cites W2753004509 @default.
W3049072834 cites W4248137062 @default.
W3049072834 doi "https://doi.org/10.1016/j.apenergy.2020.115647" @default.
W3049072834 hasPublicationYear "2020" @default.
W3049072834 type Work @default.
W3049072834 sameAs 3049072834 @default.
W3049072834 citedByCount "28" @default.
W3049072834 countsByYear W30490728342021 @default.
W3049072834 countsByYear W30490728342022 @default.
W3049072834 countsByYear W30490728342023 @default.
W3049072834 crossrefType "journal-article" @default.
W3049072834 hasAuthorship W3049072834A5000575904 @default.
W3049072834 hasAuthorship W3049072834A5005342322 @default.
W3049072834 hasAuthorship W3049072834A5067977155 @default.
W3049072834 hasAuthorship W3049072834A5078434216 @default.
W3049072834 hasConcept C10899652 @default.
W3049072834 hasConcept C119599485 @default.
W3049072834 hasConcept C121332964 @default.
W3049072834 hasConcept C127413603 @default.
W3049072834 hasConcept C170154142 @default.
W3049072834 hasConcept C192562407 @default.
W3049072834 hasConcept C24561367 @default.
W3049072834 hasConcept C2780113678 @default.
W3049072834 hasConcept C39432304 @default.
W3049072834 hasConcept C41291067 @default.
W3049072834 hasConcept C542589376 @default.
W3049072834 hasConcept C57879066 @default.
W3049072834 hasConcept C66938386 @default.
W3049072834 hasConcept C78519656 @default.
W3049072834 hasConceptScore W3049072834C10899652 @default.
W3049072834 hasConceptScore W3049072834C119599485 @default.
W3049072834 hasConceptScore W3049072834C121332964 @default.
W3049072834 hasConceptScore W3049072834C127413603 @default.
W3049072834 hasConceptScore W3049072834C170154142 @default.
W3049072834 hasConceptScore W3049072834C192562407 @default.
W3049072834 hasConceptScore W3049072834C24561367 @default.
W3049072834 hasConceptScore W3049072834C2780113678 @default.
W3049072834 hasConceptScore W3049072834C39432304 @default.
W3049072834 hasConceptScore W3049072834C41291067 @default.
W3049072834 hasConceptScore W3049072834C542589376 @default.
W3049072834 hasConceptScore W3049072834C57879066 @default.
W3049072834 hasConceptScore W3049072834C66938386 @default.
W3049072834 hasConceptScore W3049072834C78519656 @default.
W3049072834 hasFunder F4320334593 @default.
W3049072834 hasLocation W30490728341 @default.
W3049072834 hasOpenAccess W3049072834 @default.
W3049072834 hasPrimaryLocation W30490728341 @default.
W3049072834 hasRelatedWork W2028503312 @default.
W3049072834 hasRelatedWork W2060964239 @default.
W3049072834 hasRelatedWork W2198533310 @default.