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Ghent University Academic Bibliography

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01J70M2G4YK0JAWNFTYGN7R80W classification A1.
01J70M2G4YK0JAWNFTYGN7R80W date "2025".
01J70M2G4YK0JAWNFTYGN7R80W language "eng".
01J70M2G4YK0JAWNFTYGN7R80W type journalArticle.
01J70M2G4YK0JAWNFTYGN7R80W hasPart 01JM9NYTT7QHZ21QQE8D2XKHKB.pdf.
01J70M2G4YK0JAWNFTYGN7R80W hasPart 01JM9P36W1X87FHC9PFAPSQD9B.pdf.
01J70M2G4YK0JAWNFTYGN7R80W subject "Technology and Engineering".
01J70M2G4YK0JAWNFTYGN7R80W doi "10.1080/14733315.2024.2384715".
01J70M2G4YK0JAWNFTYGN7R80W issn "1473-3315".
01J70M2G4YK0JAWNFTYGN7R80W issn "2044-4044".
01J70M2G4YK0JAWNFTYGN7R80W issue "1".
01J70M2G4YK0JAWNFTYGN7R80W volume "24".
01J70M2G4YK0JAWNFTYGN7R80W abstract "Globally and in European Union, climate change and heatwaves (HWs) challenges the thermal resilience performance (buildings' ability to withstand and recover from a shock) of airtight, highly insulated buildings with no cooling strategies. Ensuring thermal resilience in buildings is crucial for maintaining habitability amid climate change uncertainties. This study, under the framework of IEA EBC Annex 80, aims to explore the impact of design parameters (thermal mass, window to wall ratio (WWR), operation of solar shading and natural night ventilation) on the thermal resilience in a Belgian apartment. Although a number of recent studies explored impact of building design on overheating, there is still a lack in the state-of-the-art exploring and varying ranges of the design parameters that impact the thermal resilience performance of apartments during short-term shocks such as heatwaves. In order to reach the aim of this study, building energy simulations were performed. Initially, the default apartment was evaluated during current weather scenario varying the parameters. Results showed overheating risk in default apartment during current weather scenario. Then the worst, improved and, the optimized variation of the building is evaluated against 6 days HW. The apartments' thermal resilience performance assessment conclude that high window-to-wall ratios (WWR >30%) without solar shading and lighter thermal mass decrease thermal resilience during shocks, highlighting WWR's significance. For short-term overheating events, heavy thermal mass improves the thermal resilience by pro-longing the absorptivity time (withstanding capability) of the excess heat. However, if excess heat is absorbed by the building (higher WWR resulting in higher solar gains), lighter thermal mass enhances the thermal resilience performance (recovery capability) by flushing out the excess heat. Solar shading and passive cooling strategy like natural night ventilation aids in temperature management, improving the buildings' thermal resilience performance by prolonging the absorptivity and speeding the recovery from the shock.".
01J70M2G4YK0JAWNFTYGN7R80W author 3c771aa5-8a28-11ed-af7a-e03767fe76b3.
01J70M2G4YK0JAWNFTYGN7R80W author F7B24E40-F0ED-11E1-A9DE-61C894A0A6B4.
01J70M2G4YK0JAWNFTYGN7R80W author urn:uuid:589a44d2-ac35-4db0-aafe-8341b3ffc920.
01J70M2G4YK0JAWNFTYGN7R80W author urn:uuid:fad7bd76-1fa6-4fea-a268-ab0857fc7c1b.
01J70M2G4YK0JAWNFTYGN7R80W dateCreated "2024-09-05T08:16:04Z".
01J70M2G4YK0JAWNFTYGN7R80W dateModified "2025-03-03T12:09:59Z".
01J70M2G4YK0JAWNFTYGN7R80W name "Assessing thermal resilience to overheating in a Belgian apartment : impact of building parameters".
01J70M2G4YK0JAWNFTYGN7R80W pagination urn:uuid:7080d28b-66e6-498f-b29f-d5ed01b03bcf.
01J70M2G4YK0JAWNFTYGN7R80W sameAs LU-01J70M2G4YK0JAWNFTYGN7R80W.
01J70M2G4YK0JAWNFTYGN7R80W sourceOrganization urn:uuid:cd7bd208-f095-42d0-ac68-443eecb9a1d5.
01J70M2G4YK0JAWNFTYGN7R80W type A1.