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2019/1
New Technical Solutions to Remove Seasonal Restrictions of Thermal Power Plants and Increase Reliability and Efficiency of Power Systems During Summer Period
Technical sciences

Authors: Vasily A. ZUBAKIN graduated from Omsk Polytechnic Institute in 1980, Doctor of Economic Sciences, Head of the Department of Renewable Energy Sources of Gubkin Russian State University of Oil and Gas (National Research University), head of the Department of LUKOIL Oil Company. Specialist in the field of economics and forecasting of energy, the economy of renewable energy sources and distributed generation, risk management in the fuel and energy sector, economic and mathematical models of the electricity market. He is an author of more than 60 scientific publications. E-mail: zubakinva@gmail.com
Fedor Yu. OPADCHIY graduated from Moscow Engineering Physics Institute as an engineer-physicist in 1997. Since 2004 he has been working in the System Operator of the Unified Energy System of Russia, in 2012 he was appointed as a Deputy Chairman of the Ma- nagement Board of Joint-Stock Company “System Operator of the Unified Energy System”. He oversees the development of electricity markets and information technologies of Joint-Stock Company “System Operator of the Unified Energy System”. He is a member of expert councils on electric power industry under the Government of the Russian Federation and the Federal Anti-Monopoly Service of Russia, and is a member of the Supervisory Board of the Association “NP MARKET COUNCIL” of infrastructure organizations. He represents Joint-Stock Company “System Operator of the Unified Energy System” in international organizations, in 2018-2019 he is elected as a president of the Association of System Operators of the world’s largest energy systems GO15 (VLPGO). E-mail: fedor@so-ups.ru
Denis L. DOGADIN graduated from the Engineering and Low Temperature Physics Department at the Moscow Power Engineering Institute in 1994, Head of Department for Examination and Support of Projects of the Department of Energy Assets Development and Project Support of LUKOIL Oil Company. Author of several scientific publications on the problems of improving the efficiency of thermal power plants operation, energy efficiency in the systems of heat and electricity supply of industrial and municipal enterprises. He is an author of a number of useful models. E-mail: Denis.Dogadin@lukoil.com
Tatyana Yu. USPENSKAYA graduated from the Department of Industrial Heat and Power Systems of Moscow Power Engineering Institute in 2010, Leading Specialist of the Department for the Development of Energy Assets and Projects Support of LUKOIL Oil Company. She is an author of more than 10 scientific publications. E-mail: Tatyana.Yu.Uspenskaya@lukoil.com

Abstract: Specific features of the operation of one of the most dynamically developing energy systems of the country are analyzed. The functioning of the United Energy Systems of the South Region is associated on the one hand with a steady increase in summer loads, and on the other, with a steady trend for reduction of the generation capacity. These are both for technological reasons and because of the shutdowns of the generating equipment for repair. Methods for solving the above mentioned problem using absorption chillers and evaporative coolers are proposed. Pioneer experience of the LUKOIL Group companies of applying these methods in Russia is presented

Index UDK: 621.311.22

Keywords: power system, absorption chiller, evaporative coolers, removal of seasonal restrictions of thermal power plants

Bibliography:
1. Informatsionnyy obzor “Edinaya energeticheskaya sistema Rossii: promezhutochne itogi” za 2012-2018 gg. [Information review “United Energy System of Russia: intermediate results” for 2012- 2018] Available at: http://so-ups.ru/?id=tech_ (accessed 24 January 2019).
2. Dogadin D.L., Krykin H.H., Latypov G.A. Teplovaya elektricheskaya stantsiya s absorbtsionnoy bromisto-litievoy kholodil’noy mashinoy [Thermal power plant with absorption lithium bromide refrigeration machine]. Patent RF, no. 119393, 2012.
3. Dogadin D.L., Krykin H.H., Latypov G.A. Teplovaya elektricheskaya stantsiya s absorbtsionnoy bromisto-litievoy kholodil’noy mashinoy [Thermal power plant with absorption lithium bromide refrigeration machine]. Patent RF, no. 119394, 2012.
4. Dogadin D.L. Teplovaya elektricheskaya stantsiya s absorbtsionnoy bromisto-litievoy kholodil’noy mashinoy, rabotayushchey v rezhime teplovogo nasosa [Thermal power plant with absorption lithium bromide chiller operating in heat pump model]. Patent RF, no. 127818, 2012.