CALCULATION OF THE TEMPERATURE FIELD OF A SOLAR POLYMER COLLECTOR

Abstract

This article presents a study of the temperature field of an inflatable collector made of polymer materials. The efficiency of the power system under consideration depends on the intensity of the absorber heating. In turn, the heating of the coolant is influenced by many external environmental factors. The developed mathematical model and software product allow us to consider the degree of influence of each factor individually and collectively.This article presents a study of the temperature field of an inflatable collector made of polymer materials. The efficiency of the power system under consideration depends on the intensity of the absorber heating. In turn, the heating of the coolant is influenced by many external environmental factors. The developed mathematical model and software product allow us to consider the degree of influence of each factor individually and collectively.This article presents a study of the temperature field of an inflatable collector made of polymer materials. The efficiency of the power system under consideration depends on the intensity of the absorber heating. In turn, the heating of the coolant is influenced by many external environmental factors. The developed mathematical model and software product allow us to consider the degree of influence of each factor individually and collectively.This article presents a study of the temperature field of an inflatable collector made of polymer materials. The efficiency of the power system under consideration depends on the intensity of the absorber heating. In turn, the heating of the coolant is influenced by many external environmental factors. The developed mathematical model and software product allow us to consider the degree of influence of each factor individually and collectively.This article presents a study of the temperature field of an inflatable collector made of polymer materials. The efficiency of the power system under consideration depends on the intensity of the absorber heating. In turn, the heating of the coolant is influenced by many external environmental factors. The developed mathematical model and software product allow us to consider the degree of influence of each factor individually and collectively.This article presents a study of the temperature field of an inflatable collector made of polymer materials. The efficiency of the power system under consideration depends on the intensity of the absorber heating. In turn, the heating of the coolant is influenced by many external environmental factors. The developed mathematical model and software product allow us to consider the degree of influence of each factor individually and collectively.This article presents a study of the temperature field of an inflatable collector made of polymer materials. The efficiency of the power system under consideration depends on the intensity of the absorber heating. In turn, the heating of the coolant is influenced by many external environmental factors. The developed mathematical model and software product allow us to consider the degree of influence of each factor individually and collectively.