[Russia's energy strategy for the period until 2020. Approved by the Decree of the Government of the Russian Federation as of August 28, 2003 No.1234-r.]Search in Google Scholar
[Perminov, E.M., 1993. Non-traditional renewable energy sources: the state and prospects for development // Energy construction, No.12, pp. 9-15.]Search in Google Scholar
[Khavanov, P.A., 2003. Contemporary state of public energy service // Modern systems of heat and gas supply and ventilation: Collected papers / Moscow: Moscow State University of Civil Engineering, pp. 19-22.]Search in Google Scholar
[Stoyanov, N.I., 2014a. Integrated power supply of separate facilities from solar energy / N.I. Stoyanov, A.I. Voronin, A.G. Stoyanov, A.V. Shagrov. – Stavropol: North-Caucasian Federal University, pp. 96.]Search in Google Scholar
[Stoyanov, N.I., 2014b. Potential assessment of integrated energy supply of separate facilities from the solar collector / N.I. Stoyanov, A.I. Voronin, A.G. Stoyanov, A.V. Shagrov // International Scientific Journal “Alternative Energy and Ecology,” Research and Development Center “TATA”, No.13 (153), pp. 12-16.]Search in Google Scholar
[Boguslavsky, E.I., 1994. Resources of geothermal energy within the territory of Russia and neighboring countries / E.I. Boguslavsky, et al. // International Scientific and Technical Conference “Modern Problems of unconventional energy.” Person responsible for release V.V. Elistratov. – St.-Petersburg, pp. 185.]Search in Google Scholar
[Gnatus, N.A., 2012. Petrotermal power engineering in Russia. Main trends in the use of non-renewable natural energy resources / N.A. Gnatus. // World Technologies. Moscow: WT No.07(45).]Search in Google Scholar
[Ryzhenkov V.A., 2009. Concerning the possibility of using the Earth's deep-seated rock heat for electric and heat supply of separate consumers / V.A. Ryzhenkov, N.E. Kutko // Energy saving and water treatment, No.1.]Search in Google Scholar
[Alkhasov A.B., 2008. Geothermal energy: problems, resources, technologies. Moscow: FIZMATLIT, pp. 376.]Search in Google Scholar
[Stoyanov, N.I., 2013. Absorption heat pumps in the systems of integrated energy saving of separate facilities from renewable energy sources / N.I. Stoyanov, A.G. Stoyanov // Science. Innovation. Technologies. Scientific Magazine of North-Caucasian Federal University. – Stavropol: North-Caucasian Federal University, Issue No.4. pp. 51-64.]Search in Google Scholar
[Designer’s Handbook. Part I. Heating / edited by I. G. Staroverova. – Moscow: Stroyizdat, 1991.]Search in Google Scholar
[Shishkin, N.D., 2004. Combined and effective use of thermal energy sources in autonomous thermal power complexes / Abstract of a thesis for the scientific degree of Doctor of Engineering Science. – Astrakhan.]Search in Google Scholar
[Pleshka M.S., Vyrlan P.M., Stratan F.I., Bulkin S.G.; Edited by F.I. Stratana. Chisinau: Shtiintsa, 1990. Heat pump solar systems of heating and hot water supply of buildings, 122 p.]Search in Google Scholar
[Sotnikova, K.N., 2009. Combined heat supply systems, combining traditional and renewable energy sources. Abstract of a thesis for a Ph.D. in Engineering Science. – Voronezh, pp. 20.]Search in Google Scholar
[Stoyanov, N.I., 2015a. Increasing the efficiency of power supply from a hybrid solar collector. Stoyanov, A.I. Voronin, A.G. Stoyanov, A.V. Shagrov // International Scientific Journal “Alternative Energy and Ecology,” Research and Development Center “TATA”, No.5 (169), pp. 14-18.10.15518/isjaee.2015.05.001]Search in Google Scholar
[Stoyanov, N.I., 2015b. Problems and prospects of using renewable energy sources / N.I. Stoyanov, A.I. Voronin, S.V. Buslov, A.G. Stoyanov, A.V. Shagrov // Contemporary Science and Innovation, No.2 (10), pp. 114-122.]Search in Google Scholar
[Stoyanov, N.I., 2016. Integrated power supply from solar and petrothermal energy. Theoretical bases and feasibilities / N.I. Stoyanov, A.G. Stoyanov, A.V. Shagrov // Lap LAMBERT Academic Publishing, pp. 9.]Search in Google Scholar
[A.V. Cherednikova, I.V. Zemlyakova, 2011. Introduction to graph theory. Kostroma: Publishing House of Kostroma State Technological University, pp. 24.]Search in Google Scholar
[Sidelnikov, V.I., 2004. Methodology of construction and analysis of mathematical models of heat supply systems / Abstract of a thesis for the scientific degree of Doctor of Engineering Science. – Novocherkassk, Cherednikova A.V.]Search in Google Scholar
[Stoyanov, N.I., 2016. Mathematical model of managing the system of integrated power supply of separate facilities from renewable energy sources / N.I. Stoyanov, S.S. Smirnov, A.G. Stoyanov // Bulletin of the North-Caucasian Federal University, No.1(52), pp. 21-26.]Search in Google Scholar
[SNiP 23-02-2003. Thermal protection of buildings. M. – 2004.]Search in Google Scholar
[Mohammed Kamil Ali Ghazi, 2015. Power plant for heat supply of consumers using solar heaters in the climatic conditions of Iraq / Abstract of a thesis for the scientific degree of Ph.D. in Engineering Science – Novocherkassk.]Search in Google Scholar
[Ibrahim Ahmed Khalil Ibrahim, 2016. Energy complex for water supply of consumers on the basis of solar converters in the climatic conditions of Iraq / Abstract of a thesis for the scientific degree of Ph.D. in Engineering Science. – Novocherkassk.]Search in Google Scholar
[Amerkhanov, R.A., 2006. Petrothermal energy in heat supply systems / R.A. Amerkhanov // Heat-process engineering, Vol. 28, No.2.]Search in Google Scholar
[Kalinichenko, A.Yu, 2004. Development and research of heat-accumulating materials on the basis of liquid paraffins / Abstract of a thesis for the scientific degree of Ph.D. in Engineering Science. – Astrakhan.]Search in Google Scholar
[Bezhan, A.V., 2008. Regarding the selection of heat-accumulating material for the heat accumulator being used in the heat supply system / INDUSTRIAL POWER ENGINEERING No.5.]Search in Google Scholar
[Timakova, O.V., 2006. Autonomous solar heating and hot water supply system with the use of accumulation based on substances with a phase transition / Abstract of a thesis for the scientific degree of Ph.D. in Engineering Science: 05.14.04. Moscow, pp. 126.]Search in Google Scholar