SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3113869043> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W3113869043 endingPage "203" @default.
W3113869043 startingPage "190" @default.
W3113869043 abstract "The energy loss through building components resulting in higher energy consumption, thus energy saving has become an essential aspect in design and comfort. This study aims to optimize the thermal insulation of red clay bricks used in the walls of buildings by using a multiscale method. The finite element approach in ABAQUS software has been used to simulate the bricks under different configurations and conditions. Due to cost and time challenges and difficulties in simulation and complex calculations, simplified and applicable equations have been derived to calculate thermal insulation properties. The results show that the paper’s brick design has a significant thermal conductivity reduction that could reach more than one-third of the other corresponding studies. The study goes to fill the hollow bricks by the insulation polyurethane foam (PUF) and comparing the results with air hollow bricks. Besides its other advantages, the outcomes reveal that using the PUF has a noticeable desired-influence in thermal insulation when considering the heat transfer by convection and radiation inside the air cavity of bricks." @default.
W3113869043 created "2021-01-05" @default.
W3113869043 creator A5000468122 @default.
W3113869043 creator A5010696489 @default.
W3113869043 creator A5013278430 @default.
W3113869043 creator A5068407577 @default.
W3113869043 creator A5076181834 @default.
W3113869043 date "2020-12-27" @default.
W3113869043 modified "2023-10-15" @default.
W3113869043 title "MULTISCALE APPROACH OF THE EQUIVALENT THERMAL CONDUCTIVITY OF MODIFIED FOAM-FILLED AND NON-FILLED HOLLOW BRICK AND A BRICK WALL" @default.
W3113869043 cites W1020923634 @default.
W3113869043 cites W1968187837 @default.
W3113869043 cites W1968318789 @default.
W3113869043 cites W1975536859 @default.
W3113869043 cites W1976837030 @default.
W3113869043 cites W1988516572 @default.
W3113869043 cites W1995863746 @default.
W3113869043 cites W2001785689 @default.
W3113869043 cites W2013902297 @default.
W3113869043 cites W2014536229 @default.
W3113869043 cites W2018196649 @default.
W3113869043 cites W2018755430 @default.
W3113869043 cites W2031573260 @default.
W3113869043 cites W2035426606 @default.
W3113869043 cites W2049029392 @default.
W3113869043 cites W2054087648 @default.
W3113869043 cites W2065402459 @default.
W3113869043 cites W2073630539 @default.
W3113869043 cites W2074624200 @default.
W3113869043 cites W2085639762 @default.
W3113869043 cites W2088768411 @default.
W3113869043 cites W2092825679 @default.
W3113869043 cites W2094621611 @default.
W3113869043 cites W2146992115 @default.
W3113869043 cites W2171218510 @default.
W3113869043 cites W2307679992 @default.
W3113869043 cites W2468264239 @default.
W3113869043 cites W2548371575 @default.
W3113869043 cites W2595894149 @default.
W3113869043 cites W2604753316 @default.
W3113869043 cites W2615774883 @default.
W3113869043 cites W2616614235 @default.
W3113869043 cites W2728374931 @default.
W3113869043 cites W2759764530 @default.
W3113869043 cites W2760313138 @default.
W3113869043 cites W2780618327 @default.
W3113869043 cites W2793774962 @default.
W3113869043 cites W2809432865 @default.
W3113869043 cites W2892792378 @default.
W3113869043 cites W2893066077 @default.
W3113869043 cites W2895068231 @default.
W3113869043 cites W2900764140 @default.
W3113869043 cites W2901990773 @default.
W3113869043 cites W2908525944 @default.
W3113869043 cites W2920294334 @default.
W3113869043 cites W2921567482 @default.
W3113869043 cites W2936867118 @default.
W3113869043 cites W2946151912 @default.
W3113869043 cites W382447826 @default.
W3113869043 cites W4252207842 @default.
W3113869043 doi "https://doi.org/10.18186/thermal.847754" @default.
W3113869043 hasPublicationYear "2020" @default.
W3113869043 type Work @default.
W3113869043 sameAs 3113869043 @default.
W3113869043 citedByCount "1" @default.
W3113869043 countsByYear W31138690432022 @default.
W3113869043 crossrefType "journal-article" @default.
W3113869043 hasAuthorship W3113869043A5000468122 @default.
W3113869043 hasAuthorship W3113869043A5010696489 @default.
W3113869043 hasAuthorship W3113869043A5013278430 @default.
W3113869043 hasAuthorship W3113869043A5068407577 @default.
W3113869043 hasAuthorship W3113869043A5076181834 @default.
W3113869043 hasBestOaLocation W31138690431 @default.
W3113869043 hasConcept C107766110 @default.
W3113869043 hasConcept C121332964 @default.
W3113869043 hasConcept C127413603 @default.
W3113869043 hasConcept C135628077 @default.
W3113869043 hasConcept C154226666 @default.
W3113869043 hasConcept C159985019 @default.
W3113869043 hasConcept C192562407 @default.
W3113869043 hasConcept C204530211 @default.
W3113869043 hasConcept C2779227376 @default.
W3113869043 hasConcept C2779578285 @default.
W3113869043 hasConcept C50517652 @default.
W3113869043 hasConcept C57879066 @default.
W3113869043 hasConcept C64839514 @default.
W3113869043 hasConcept C66938386 @default.
W3113869043 hasConcept C97346530 @default.
W3113869043 hasConcept C97355855 @default.
W3113869043 hasConceptScore W3113869043C107766110 @default.
W3113869043 hasConceptScore W3113869043C121332964 @default.
W3113869043 hasConceptScore W3113869043C127413603 @default.
W3113869043 hasConceptScore W3113869043C135628077 @default.
W3113869043 hasConceptScore W3113869043C154226666 @default.
W3113869043 hasConceptScore W3113869043C159985019 @default.
W3113869043 hasConceptScore W3113869043C192562407 @default.
W3113869043 hasConceptScore W3113869043C204530211 @default.
W3113869043 hasConceptScore W3113869043C2779227376 @default.