Thermal analysis of above-grade wall assembly with low emissivity materials and furred airspace

Autor:	Hamed H. Saber, Caroline St-Onge, Wahid Maref, Michael C. Swinton
Rok vydání:	2011
Předmět:	Engineering Furring Environmental Engineering Meteorology business.industry Thermal resistance Geography Planning and Development 3D modeling low emissivity material air space thermal resistance wood-frame walls Enveloppe du bâtiment Building and Construction Thermal conduction Oriented strand board Low emissivity Building envelope Heat transfer Emissivity Composite material business FOIL method Civil and Structural Engineering
Zdroj:	Building and Environment. 46:1403-1414
ISSN:	0360-1323
DOI:	10.1016/j.buildenv.2011.01.009
Popis:	A 3D numerical model was developed to investigate the effect of foil emissivity on the effective thermal resistance of an above-grade wall assembly with foil bonded to wood fibreboard in a furred assembly having airspace next to the foil. This model solved simultaneously the energy equation in the various material layers, the surface-to-surface radiation equation in the furred airspace assembly, Navier–Stokes equation for the airspace, and Darcy and the Brinkman equations for the porous material layers. In this work, the furring was installed horizontally. In the first phase, the present model was benchmarked against the experimental data generated by a commercial laboratory for an above-grade wall assembly. The wall consists of a conventional wood frame structure sheathed with fibreboard and covered on the interior side with a low emissivity material bonded to wood fibreboard that is adjacent to a furred airspace assembly. The results showed that the predicted R -value was in good agreement with the measured one. After gaining confidence in the present model, it was used to predict the effective thermal resistance of the same above-mentioned wall but having Oriented Strand Board (OSB) sheathing in lieu of wood fibreboard sheathing. In the second phase, the model was used to quantify the contribution on the wall R -value by having a low foil emissivity. The results showed that a low foil emissivity of 0.04 can increase the R -value of this wall to as much as ∼9%. This is on-going research. The present model is being used to investigate the transient thermal response of foundation wall systems with furring installed horizontally and vertically, and subjected to different Canadian climate conditions.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::05535e29946b04b81621d77c9a864102 https://doi.org/10.1016/j.buildenv.2011.01.009 Zobrazit plný text záznamu Full Text from ScienceDirect