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Impact of the position of the window in the reveal of a cavity wall on the heat loss and the internal surface temperature of the head of an opening with a steel lintel

Sierra, Francisco; Gething, Bill; Bai, Jiping; Maksoud, Talal

Impact of the position of the window in the reveal of a cavity wall on the heat loss and the internal surface temperature of the head of an opening with a steel lintel Thumbnail


Authors

Jiping Bai

Talal Maksoud



Abstract

© 2017 Elsevier B.V. The interface between the head of the window and the wall represents one of the largest thermal bridges of a building and one of the areas with the highest risk of surface condensation. This paper confirmed the importance, and investigated the impact, of the location of the window in the reveal of a cavity wall on the Ψlintel and surface temperature of the area. Additionally, it studied the reliability and accuracy of assessing this thermal bridge using an adiabatic surface instead the actual window. Two possible construction details that meet PARTL 2013 were modelled and assessed with HEAT2D software, following two different methods: the standard and commonly used (adiabatic surface) method and the detailed one (including the actual window). The outputs revealed that the adiabatic surface prevents the software to account the heat transfer that in reality occurs between the window frame and the highly conductive steel lintel. Therefore, the current simplified method could underestimates the heat losses up to 33% and the surface temperature by over 4°C for certain locations. Additionally, it locates the optimal area for the frame between overlapping 70mm the cavity to align with the insulation layer of the cavity. Finally, it concluded that under current trends of extremely low Ψlintel the adiabatic surface has a greater impact than before, producing less accurate outputs, enough to start to think on the necessity of including the actual window during the assessment of the thermal performance of top hat lintels without base plate in low/zero carbon projects.

Journal Article Type Review
Acceptance Date Feb 14, 2017
Online Publication Date Feb 22, 2017
Publication Date May 1, 2017
Deposit Date May 22, 2017
Publicly Available Date Feb 22, 2018
Journal Energy and Buildings
Print ISSN 0378-7788
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 142
Pages 23-30
DOI https://doi.org/10.1016/j.enbuild.2017.02.037
Keywords thermal bridge, low carbon design, steel lintel, condensation, psi-value calculation
Public URL https://uwe-repository.worktribe.com/output/888150
Publisher URL http://www.sciencedirect.com/science/article/pii/S0378778816316383
Contract Date May 22, 2017

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