Abstract
Calculations have been performed to determine the heat flow and temperature distribution within the energyactive fence (EAF). The peculiarities of heat transfer in EAF during the summer are considered when implementing two modes: heat-insulating and with heat removal in the presence of ventilation. It is known that the presence of convection in the gaps leads to an intensification of the process of heat transfer through it. The efficiency of the functioning of energy supply systems using alternative energy sources depends on the choice of the design of energy-active fences, which are used as an element of conversion of incoming energy. With the optimal choice of the design of energy-efficient fences, the use of an innovative system allows a 3-fold decrease in energy costs for hot water supply.
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