The building's energy performance is the result not only of material and component performances, but also of the way the components are interconnected. Concerning windows, their energy performance, which is usually evaluated by using the glass and frame heat transfer coefficients and the linear heat transfer coefficients of the glazing spacer, depends also on the frame installation. In this paper the entity of thermal losses due to the frame installation has been evaluated in terms of linear thermal transmittance calculated in accordance with the standard EN ISO 10211:2007 using THERM 5.2. The analysis of thermal bridges between a wooden frame window installed into two different kinds of external clay block walls has been carried out. The linear thermal transmittances have been calculated for three cases regarding the position (external, internal, and intermediate) and three concerning the insulation of the hole perimeter (non insulated, insulated and with insulation over fixed frame). The impact of the window installation on thermal losses has been estimated and its dependence on different sizes has been evaluated. A new graphical representation has been suggested. The frame position and the configuration of the window hole insulation result to have a relevant impact on the overall thermal performance of the considered window.
[1]
Andrea Gasparella,et al.
Analysis and modelling of window and glazing systems energy performance for a well insulated residential building
,
2011
.
[2]
Maria Wall,et al.
Influence of window size on the energy balance of low energy houses
,
2006
.
[3]
José María Sala,et al.
Analysis of different models to estimate energy savings related to windows in residential buildings
,
2009
.
[4]
Arne Roos,et al.
Annual energy window performance vs. glazing thermal emittance — the relevance of very low emittance values
,
2001
.
[5]
Svend Svendsen,et al.
Development of a slim window frame made of glass fibre reinforced polyester
,
2010
.