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The Effect of Hydrodynamic Unsteadiness on the Flow Structure and on the Coefficients of Heat Transfer and Skin Friction under Conditions of Turbulent Pipe Flow of Heat-Transfer Agent

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Abstract

Critical analysis is made of the current status of investigations of heat transfer and skin friction under conditions of unsteady-state turbulent pipe flow. This analysis is based on the experimental data on the structure of turbulent flows and heat transfer. Comparison is made of experimental and theoretical results.

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REFERENCES

  1. Dreitser, G.A., Teploenergetika, 1998, no. 12, p. 29.

  2. Kalinin, E.K., Dreitser, G.A., Kostyuk, V.V., and Berlin, I.I., Metody rascheta sopryazhennykh zadach teploobmena (Methods of Calculation of Conjugate Problems of Heat Transfer), Moscow: Mashinostroenie, 1983.

    Google Scholar 

  3. Kalinin, E.K. and Dreitser, G.A., Unsteady Convective Heat Transfer in Channels, in Advances in Heat Transfer, New York: Academic, 1994, vol. 25, p. 1.

    Google Scholar 

  4. Koshkin, V.K., Kalinin, E.K., Dreitser, G.A., and Yarkho, S.A., Nestatsionarnyi teploobmen (Unsteady-State Heat Transfer), Moscow: Mashinostroenie, 1973.

    Google Scholar 

  5. Bukharkin, V.B., Dreitser, G.A., Kraev, V.M., and Neverov, A.S., The Effect of Hydrodynamic Unsteadiness on the Turbulent Flow Structure, in Trudy Pervoi Rossiiskoi natsional'noi konferentsii po teploobmenu (Proceedings of the First Russian National Conference on Heat Transfer), Moscow: Izd. MEI (Moscow Inst. of Power Engineering), 1994, vol. 1, p. 49.

    Google Scholar 

  6. Bukharkin, V.B., Dreitser, G.A., Kraev, V.M., and Neverov, A.S., The Effect of Hydrodynamic Unsteadiness on the Turbulent Flow Structure and on the Heat-Transfer Coefficient in Pipes, in Trudy Vtoroi Rossiiskoi natsional'noi konferentsii po teploobmenu (Proceedings of the Second Russian National Conference on Heat Transfer), Moscow: Izd. MEI (Moscow Inst. of Power Engineering), 1998, vol. 2, p. 70.

    Google Scholar 

  7. Dreitser, G.A., Bukharkin, V.B., Kraev, V.M., and Neverov, A.S., Experimental Study of Effect of Hydrodynamic Unsteadiness on a Turbulent Tube Gas Flow Structure and Heat Transfer, in Heat Transfer 1998. Proc. 11th Int. Heat and Mass Transfer Conf., Kyongiuq, 1998, vol. 3, p. 93.

    Google Scholar 

  8. Dreitser, G.A. and Markovskii, P.M., The Results of Calculation of Theoretical Estimate of the Effect of Variable Flow Rate on the Turbulent Structure of Pipe Flow, in Teplo-i massoobmen mezhdu potokami i poverkhnost'yu (Heat and Mass Transfer between Flows and Surfaces), Moscow: Izd. MAI (Moscow Aviation Inst.), 1980, p. 56.

    Google Scholar 

  9. Markov, S.V., Izv. Akad. Nauk SSSR Mekh. Zhidk. Gaza, 1973, no. 2, p. 65.

  10. Bukreev, V.I. and Shakhin, V.M., An Experimental Investigation of Turbulent Unsteady-State Flow in a Round Pipe, in Aeromekhanika (Aeromechanics), Moscow: Nauka, 1976, p. 180.

    Google Scholar 

  11. Valueva, E.P. and Chen Lai, Vestn. Mosk. Energ. Inst., 2000, no. 6, p. 38.

  12. Bukharkin, V.B. and Kraev, V.M., The Effect of Hydrodynamic Unsteadiness on Heat Transfer and Hydraulic Resistance in Pipe, in Trudy Tret'ei Rossiiskoi natsional'noi konferentsii po teploobmenu (Proceedings of the Third Russian National Conference on Heat Transfer), Moscow: Izd. MEI (Moscow Inst. of Power Engineering), 2002, vol. 2, p. 71.

    Google Scholar 

  13. Kochenov, I.S. and Falii V.F., Izv. Akad. Nauk SSSR Energ. Transp., 1981, no. 2, p. 143.

  14. Kochenov, I.S. and Nikitin, Yu.M., Teplofiz. Vys. Temp., 1967, vol. 5, no. 2, p. 346.

    Google Scholar 

  15. Carstens, M.K. and Roller, J.E., J. Hydraul. Div. Proc. Am. Soc. Civ. Eng., 1959, p. 67.

  16. Daily, I.W., Hanrew, W.L., Olive, K.W., and Jordan, J.M., Trans. ASME, 1956, vol. 78, no. 9.

  17. Liiv, U.R., Tr. Tallin. Politekh. Inst. Ser. A, 1965, no. 223, p. 21.

  18. Liiv, U.R., Tr. Tallin. Politekh. Inst. Ser. A, 1965, no. 223, p. 43.

  19. Kochenov, I.S. and Kuznetsov, Yu.N., Unsteady-State Pipe Flows, in Teplo-i massoperenos (Heat and Mass Transfer), Minsk: Nauka i Tekhnika, 1965, vol. 1, p. 306.

    Google Scholar 

  20. Denisov, S.V., Inzh. Fiz. Zh., 1970, vol. XVIII, no. 1, p. 118.

    Google Scholar 

  21. Popov, D.N., Izv. Vyssh. Uchebn. Zaved. Mashinostr., 1972, no. 7, p. 78.

  22. Khudasko, V.V., Unsteady-State Turbulent Flow of Incompressible Liquid, Preprint of the Inst. of Energy Physics, Obninsk, 1973, FEI-07.

  23. Dreitser, G.A. and Kraev, V.M., in Turbulentnye techeniya gaza pri gidrodinamicheskoi nestatsionarnosti (Turbulent Gas Flows under Conditions of Hydrodynamic Unsteadiness), Krasnoyarsk: SAA (Siberian Aerospace Academy), 2001.

    Google Scholar 

  24. Arkhipov, A.N. and Gerasimov, S.V., Inzh. Fiz. Zh., 1985, vol. XLIX, no. 4, p. 533.

    Google Scholar 

  25. Markov, S.B., Experimental Investigations of Kinematic Characteristics of Turbulent Unsteady-State Pressure Flow, in Gidravlika i gidrodinamika (Hydraulics and Hydrodynamics), Kiev: Tekhnika, 1969, issue 8, p. 29.

    Google Scholar 

  26. Bukreev, V.I. and Shakhin, V.M., An Experimental Investigation of the Velocities and Energy of Turbulence under Conditions of Unsteady-State Flow in Pipe, in Matematicheskie voprosy mekhaniki (Mathematical Problems in Mechanics), Novosibirsk: Inst. of Hydrodynamics, Siberian Div., USSR Acad. Sci., 1975, issue 22, p. 65.

    Google Scholar 

  27. Popov, D.N., Nestatsionarnye gidrodinamicheskie protsessy (Unsteady-State Hydrodynamic Processes), Moscow: Mashinostroenie, 1982.

    Google Scholar 

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  1. Moscow Aviation Institute (, State Technical University, Moscow, 125993, Russia

    G. A. Dreitser & V. M. Kraev

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  1. G. A. Dreitser
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  2. V. M. Kraev
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Dreitser, G.A., Kraev, V.M. The Effect of Hydrodynamic Unsteadiness on the Flow Structure and on the Coefficients of Heat Transfer and Skin Friction under Conditions of Turbulent Pipe Flow of Heat-Transfer Agent. High Temperature 42, 443–449 (2004). https://doi.org/10.1023/B:HITE.0000033881.56148.7f

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