Behavior of the coefficient of friction during the flow of compressible gas with very high negative pressure gradients

  • M. M. Nazarchuk
  • B. V. Panchenko


It is shown that for sufficiently large negative pressure gradients the coefficient of friction should increase independently of whether the flow is “laminarized” or not.


Mathematical Modeling Mechanical Engineer Pressure Gradient Industrial Mathematic Negative Pressure 
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  1. 1.
    A. F. Gandel'sman, A. A. Gukhman, N. V. Ilyukhin, and L. N. Naurits, “Study of the coefficient of resistance for flows at nearsonic velocities,” Zh. tekhn. fiz., no. 12, 1954.Google Scholar
  2. 2.
    A. A. Gukhman, “Application of the entropy method to investigate transonic adiabatic flows,” Internat. J. Heat Mass Transfer, vol. 5, 1962.Google Scholar
  3. 3.
    M. E. Deich, A. A. Kokh, A. V. Robozhev, and V. F. Stepanchuk, “Study of flow structure in an ejector with isobaric initial displacement,” Teploenergetika, no. 12, 1954.Google Scholar
  4. 4.
    M. E. Deich and L. Ya. Lazarev, “Study of the transition of a turbulent boundary layer into a laminar state,” Inzh.-fiz. zh. no. 4, 1964.Google Scholar
  5. 5.
    L. G. Loitsyanskii, The Laminar Boundary Layer [in Russian], Fizmatgiz, 1962.Google Scholar
  6. 6.
    S. S. Kutateladze and A. I. Leont'ev, Turbulent Boundary Layer of a Compressible Gas [in Russian], Izd. SO AN SSSR, 1962.Google Scholar
  7. 7.
    M. M. Nazarchuk, Gas Flows in Channels in the Presence of Heat Transfer [in Russian], Izd. AN UkrSSR, 1963.Google Scholar

Copyright information

© The Faraday Press, Inc. 1971

Authors and Affiliations

  • M. M. Nazarchuk
    • 1
  • B. V. Panchenko
    • 1
  1. 1.Kiev

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