Publication de 18 numéros par an
ISSN Imprimer: 1064-2285
ISSN En ligne: 2162-6561
Indexed in
EXPERIMENTAL AND NUMERICAL STUDY OF THE CHARACTERISTICS OF FINNED-TUBE OIL RADIATORS OF POWER ENGINEERING DEVICES
RÉSUMÉ
The objective of the present study was to check the approaches of numerical simulation of a finned-tube oil radiator of power engineering devices, cooling systems of compressor stations, etc. The additional tasks were to define thermal and hydraulic characteristics of an oil radiator without field tests and to reveal possible design defects. In the course of the study, the obtained experimental data, the engineering calculations, and the numerical simulation results of finned-tube oil radiator characteristics are compared.
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Aksenov, P.A., Dashunin, N.V., Zabrodin, Yu.V., Lifanov, V.A., Malanichev, V.A. and Miatov, O.L., Air Cooling Devices of the New Generation. The Optimal Combination of Parameters of the Heat Exchang Unit and Ventilator Installation. Decreasing the Energy Consumption of the Apparatus and Ease of Its Use, Neftegaz, vol. 2, pp. 109-111, 2003.
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Baigaliev, B.E., Shchelchkov, A.V., Yakovlev, A.B., and Gortyshov, P.Yu., Heat Exchangers, Kazan: Kazan State Technical University Press, 2012.
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Bessonnyi, A.N., Dreitser, G.A., and Kuntysh, V.B., Basics of Calculation and Design of Air Cooling Coils, St. Petersburg: Nedra Press, 1996.
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Gureev, M.V., Khabibullin, I.I., Skrypnik, A.N., Marshalova, G.S., Popov, I.A., Kadyrov, R.G., Gureev, V.M., Chorny, A.D., and Zhukova, Y. V., Use of Experimental and Numerical Simulation Methods for Rational Design of the Air Cooling Apparatus for Lubrication Systems of Compressors, Proc. NAS Belarus, Phys.-Tech. Ser., vol. 65, no. 2, pp. 215-223, 2020 (in Russian).
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Khabibullin, I.I., Nizamutdinov, R.M., Kadyrov, R.G., Nikolaenko, I.B., Gureev, M.V., and Tiunov, S.V., Numerical Simulation of Heat Transfer Processes in Oil Air Cooling Apparatus, Gas Industry, vol. 2, no. 780, pp. 84-90, 2019.
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Kuntysh, V.B., Bessonnyi, A.N., and Brill', A.A., Improving the Energy Efficiency of Air-Cooled Heat Exchangers, Chem. Petrol. Eng., vol. 33, pp. 402-407, 1997.
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Kuntysh, V.B., Sukhotskii, A.B., and Samorodov, A.V., Engineering Method for Thermal Analysis of an Air Cooler in a Regime of Free-Convective Heat Exchange, Chem. Petrol. Eng., vol. 49, pp. 773-779, 2014.
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Menter, F.R., Kuntz, M., and Langtry, R., Ten Years of Industrial Experience with the SST Turbulence Model, in Turbulence, Heat and Mass Transfer 4, K. Hanjalic, Y. Nagano, and M. Tummers, Eds., Danbury, CT: Begell House, Inc., pp. 625-632, 2003.
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Shaikhutdinov, A.Z., Lifanov, V.A., and Malanichev, V.A., Modern Gas Air Cooling Devices-Energy Saving Resource in the Gas Industry, Gas Industry, vol. 9, pp. 40-41, 2010.
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Tiunov, S.V., Skrypnik, A.N., Marshalova, G.S., Gureev, V.M., Popov, I.A., Kadyrov, R.G., Chorny, A.D., and Zhukova, Y.V., Experimental Investigation of Thermal and Hydraulic Characteristics of Finned Flat Tubes of the Oil Air Cooling Device, Energetika, Proc. CIS Higher Education Institutions and Power Engineering Associations, vol. 63, no. 2, pp.138-150, 2020 (in Russian).
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Tiunov, S.V., Skrypnik, A.N., Marshalova, G.S., Gureev, V.M., and Popov, I.A., Experimental Study of Thermal and Hydraulic Characteristics of Finned Flat Tubes of Oil Air Cooling Apparatus, Bull. A.N. Tupolev Kazan State Tech. Univ., vol. 75, no. 3, pp. 10-15, 2019.