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Thermal bridges across multilayer walls: An integral approach
AbstractAn integral approach has been developed to calculate thermal bridge effects at the junction between dissimilar, multilayer walls. The model is based on the solution of the integrated two-dimensional conduction equation for the main wall and the thermal bridge, with appropriate boundary conditions between the two solutions. The heat transfer coefficients and minimum internal surface temperatures as predicted by the model are shown to compare favourably with a computational solution, for six types of thermal bridges appearing in the International Standard for Thermal Bridges.
Thermal bridges across multilayer walls: An integral approach
AbstractAn integral approach has been developed to calculate thermal bridge effects at the junction between dissimilar, multilayer walls. The model is based on the solution of the integrated two-dimensional conduction equation for the main wall and the thermal bridge, with appropriate boundary conditions between the two solutions. The heat transfer coefficients and minimum internal surface temperatures as predicted by the model are shown to compare favourably with a computational solution, for six types of thermal bridges appearing in the International Standard for Thermal Bridges.
Thermal bridges across multilayer walls: An integral approach
Hassid, Samuel (author)
Building and Environment ; 25 ; 143-150
1990-01-01
8 pages
Article (Journal)
Electronic Resource
English
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