Abstract
Nowadays, the issue of improving the energy efficiency of new buildings and thermal modernization of existing housing is acute. This can be done due to the rational insulation of external enclosing structures, the optimal redistribution of insulation on the edges of buildings, taking into account the thermal energy impact of the environment. 
 Existing regulations regulate the minimum level of heat transfer resistance through the enclosing structures of buildings, but do not take into account such features of thermal energy impact of the environment as the level of heat from solar radiation and wind. Thus, the issue of optimal redistribution of the normative amount of insulation between the faces of the building's thermal insulation shell remains legitimate, taking into account the thermal impact of the environment in order to minimize heat loss through enclosing structures, which will increase energy efficiency of buildings. 
 To solve the above problem, the method of optimizing the heat transfer resistance of translucent and opaque enclosing structures under different conditions and the structure of optimizing the redistribution of insulation between the faces of enclosing structures is proposed. 
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