ift Guideline WA-08engl/3 Thermally improved spacer Part 1 (Print edition)
- ift Rosenheim
- Order number:
Free of shipping costs for Print Edition (within Germany) and Download
Delivery time 3 Workdays
Publisher: ift Rosenheim
Publication date: 01.02.2015
Author: ift Rosenheim
THE ARTICLE IS AVAILABLE FOR DOWNLOAD AS PDF FILE.
Prices plus VAT plus shipping costs
Product information "ift Guideline WA-08engl/3 Thermally improved spacer Part 1 (Print edition)"
Determination of representative Ψ-values for profile sections of windows
As set out by the window product standard EN 14351-1 clause 4.12, one of the methods to determine the thermal transmittance UW of windows is by calculation as per EN ISO 10077-1. The quantities required for this calculation are the thermal transmittances of the frame and the glazing, Uf and Ug, respectively as well as the linear thermal transmittance Ψ. The Ψ-value describes the heat loss caused by fitting the glass in the frame. The amount of this Ψ-value depends largely on the type of spacer inserted in the insulating glass unit. In this context we distinguish between ‘conventional‘ and thermally improved spacers. The definition of a thermally improved spacer is included in EN ISO 10077-1 and has again been summarised in the scope of this guideline.
For calculation of the UW-value of windows, EN ISO 10077-1 states global Ψ-values for both ‘conventional‘ and thermally improved spacers which can be used without further verification. But it is also possible to calculate the Ψ-value for thermally improved spacers as per EN ISO 10077-2. In this conjunction it should be taken into account that the Ψ-value depends on the profile section, the configuration of the glass unit as well as the respective built condition and mounting situation.
As set out by EN 14351-1, evidence of performance of windows is based on representative test specimens. For example, it is sufficient to calculate the thermal transmittance UW of a representative size of 1.23 m x 1.48 m. Likewise, also other characteristics, such as air permeability can be determined using representative test specimens.
This article is also available in German.