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2018/3
Сalculation of anti-icing system of heat-exchange section for integrated air-cleaning system of gas turbine engine
Geosciences

Authors: Bogdan V. BUDZULYAK graduated from Ivano-Frankovsk University of Oil and Gas in 1970 and from Russian Presidential Academy of National Economy in 1995. Doctor of Technical Sciences, President of the Self-Regulatory Organization «Association of costructors of gas and oil complexes», Professor of the Department of Construction and Repair of Gas and Oil Pipelines and Storage Facilities of Gubkin Russian State University of Oil and Gas (National Research University), member (academician) of the Academy of Mining Sciences. He is author of more than 100 scientific publications. E-mail: ebaruk@asgink.ru
Alexander F. KALININ graduated from Gubkin Moscow Institute of Oil and Gas Industry in 1976. Doctor of Technical Sciences, Professor of the Department of Thermo-dynamics and Heat engines of Gubkin Russian State University of Oil and Gas (National Research University). He is author of more than 110 scientific publications. E-mail: kalinine.a@gubkin.ru
Artem Y. FEDOSEEV graduated from Bauman Moscow State Technical University in 2012. He is currently working on his thesis for Candidate of Technical Sciences of the Department of Thermodynamics and Heat Engines of Gubkin Russian State University of Oil and Gas (National Research University) He is author of 10 scientific publications. E-mail: artemyfed@yandex.ru

Abstract: Protection of the inlet air-cleaning system of the gas turbine engine from ice formation is an important aspect of the operation of the gas-compressor unit during the autumn-winter operation period. The article presents a comparative analysis of the existing methods for the implementation of anti-icing systems, describes their advantages and disadvantages. A method for thermal and hydraulic calculations of a modernized anti-icing system using a heat-exchange section is presented. Gas pumping unit GPA-C-16 is used as an example for the calculation and design sketching

Index UDK: 621.45.03

Keywords: gas turbine engine, air-cleaning system, anti-icing system, thermal design, heat-exchange section

Bibliography:
1. Vanchin A.G., Romonenkov S.V., Fedoseev A.Y. Anti-icing system for air inlet system of gas compressor unit with gas turbine engine. Patent RF, 2017, no. 174364.
2. Gavra G.G., Mihailov P.M., Ris V.V. Thermal and hydraulic calculation of heat exchangers for compressor plants. Leningrad, 1982, 72 p.
3. State Standard 8732-78. Seamless hot-deformed steel pipes. Range of sizes. Moscow, Standinform Publ., 1979, 9 p. (in Russian).
4. Idelchik I.E. Reference book on hydraulic resistance. Moscow, Mashinostroenie, 1992, 672 p.
5. Ponkin V.N., Giltcov E.I., Kesel B.A., Kornoukhov A.A. The set of technical solutions to increase the efficiency of gas compressor units. Gas turbine technology, 2009, no 2, p. 18–22.
6. Company Standard STO Gazprom 2-2.1-226-2008. Technical requirements for air inlet system for gas compressor units. Moscow, Gazprom Publ., 2008, 22 p. (in Russian).
7. Kalinin A.F., Kupcov S.M., Lopatin A.S., Shotidi K.H Theoretical foundations of heat engineering. Thermodynamics and heat transfer in the technological processes of the oil and gas industry. Moscow, Gubkin Russian State University of Oil and Gas, 2016, 348 p.
8. Troshin A.K., Kupcov S.M., Kalinin A.F. Thermodynamic and thermophysical properties of working bodies of thermal power plants. Moscow, MPA-Press, 2006, 78 p.
9. Fedoseev A.Y. Increase of efficiency of anti-icing system of air inlet system of GPA-C-16. Gas turbine technology, 2017, no. 5, p. 22-26.
10. Schroth T. Customized filter concepts for intake air filtration in gas turbines and turbocom-pressors. Diesel & Gas Turbine Worldwide, October 1993, p. 38-40.

2011/4
Evaluating the Effectiveness of Air-Cooler Modes
Design, construction and operation of pipeline transport

Authors: Alexander V. FOMIN was born in 1985, graduated from Gubkin Russian State University of Oil and Gas in 2007. He is extra-mural graduate student of the Department of Thermodynamics and Heat Engines at Gubkin Russian State University of Oil and Gas, author of 7 scientific publications in the field of operation of gas pipelines. E-mail: sanay_fomin@mail.ru
Alexander F. KALININ was born in 1954, graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1976. Doctor of technical sciences, prof. of the Dept. of Thermal Dynamics and Heat Engines of Gubkin Russian State University of Oil and Gas. He is the author of 100 scientific publications. E-mail: kalinine@gubkin.ru

Abstract: To improve the efficiency of natural gas air-coolers optimal control modes are necessary. The article gives an analytical determination of evaluating the effectiveness of modes of air-coolers. An experimental study to test the results was performed

Index UDK: 622.692.4.07

Keywords: gas pipelines, compressor stations, process gas cooling systems, air-coolers, air-coolers performance evaluation mode

Bibliography:

2009/4
Determining counterflow index of shell tube heat exchanger
Design, manufacturing and operation of oil and gas sector equipment and facilities

Authors: Alexander F. KALININ (b. 1954), graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1976, Doctor of technical sciences, prof. of the Dept. of Thermal Dynamics and Heat Engines of Gubkin Russian State University of Oil and Gas. He is the author of 100 scientific publications. E-mail: kalinine@gubkin.ru

Abstract: To assess the ability of the heat exchanger to maintain predetermined temperature conditions of heat carriers and to calculate heat exchangers of the second kind N.I. Belokon' suggested using the counter flow index. The paper presents the method of identifying the counter flow index for shell and tube heat exchangers.

Index UDK: 621.64

Keywords: recuperative heat exchangers, thermal design, pattern of heat carriers motion, counter flow index, thermal capacity of heat exchanger, mean differential temperature

Bibliography:

2009/4
Estimating the Compression Efficiency of Compressor Stations
Design, construction and operation of pipeline transport

Authors: Alexander F. KALININ (b. 1954), graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1976, Doctor of technical sciences, prof. of the Dept. of Thermal Dynamics and Heat Engines of Gubkin Russian State University of Oil and Gas. He is the author of 100 scientific publications. E-mail: kalinine@gubkin.ru
Vitalyi V. KICHATOV (b. 1986), graduated from Gubkin Russian State University of Oil and Gas, deputy engineer in chief of OAO “Giprogazoochistka” project. E-mail: vkichatov@ggo.ru
Andrey U. TOROPOV (b. 1955), graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1981, deputy general director of OOO “Gazprom transgz Ugorsk”. E-mail: echerednikova@ttg.gazprom.ru

Abstract: N.I. Belokon solves the tasks of estimating the efficiency of gas turbine plants operation as the main energy drive for gas-pumping units. This is important today for the development of the gas transportation system. The article proposes an integral criterion for estimating the compression efficiency of compressor stations and methods for determining the optimal regimes for gas-pumping units and compression systems with the aim of reducing energy costs of natural gas mains.

Index UDK: 621.6

Keywords: gas compressor units, compression stations, monitoring, optimization criterion, operation mode optimization gas compressor units

Bibliography: