The promising environmentally friendly solar heating systems are based on the combined solar collector, in which the absorber made of constructive material of low-energy house was described. The usage of the combined absorber with an external protection of low-energy house ensures sufficient efficiency of combined solar collector and reduces its cost. Three-factor planning matrix with the factors interaction was developed. Analytical and graphical dependencies of efficiency of the combined solar collector with a transparent coating and without it on the angle of incidence and intensity of heat flow were shown. The efficiency of transparent coating which protects the absorber of solar collector was researched. Ecological effect of using the combined solar collector was calculated.
[1] Mysak Y., Voznyak O., Datsko O., Shapoval S.: Sonyachna Enerhetyka: Teoriya ta Praktyka. Vyd-vo Lviv Polytechnic, Lviv 2014.
[2] Duffie J., Beckman A.: Solar Engineering of Thermal Processes, 2nd edn. Wiley-Intersci. Publ., New York 1980.
[3] Strashko V.: Ecotekhnolohii i Resursozberezheniya, 2005, 6, 68.
[4] Freris L.: Renewable Energy in Power Systems. JohnWiley&Sons, New York 2008.
[5] Hazami M., Kooli S., Lazaar M. et al.: Am. J. Environ. Sci., 2005, 1, 270.
[6] Hantula R.: Science in the Real World: How Do Solar Panels Work? Chelsea House Publ., New York 2010.
[7] Maczulak A.: Renewable energy: Sources and Methods. Info base Publ., New York 2010.
[8] Mamlok R., Nijmeh S., Abdallah S.: Inform. Technol. J., 2006, 5, 1083.
[9] Lorenz P., Pinner D., Seitz T.: The Economics of Solar Power. The Mc Kinsey Quarterly, NY 2008.
[10] Guminilovych R., Shapoval P., Yatchyshyn I., Shapoval S.: Chem. Chem. Technol., 2015, 9, 287.