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Chemical and Petroleum Engineering

, Volume 46, Issue 1–2, pp 57–59 | Cite as

Calculation of the coefficient of hydraulic resistance of an unirrigated (dry) layer of fibrous packing

  • E. V. Polienova
  • A. Yu. Valdberg
Research, Design, Calculations, and Operating Experience Processes and Equipment for Chemical and Oil-Gas Production

The coefficient of hydraulic resistance of a dry layer of fibrous packing is determined. A relationship between the coefficient of hydraulic resistance and Reynolds number is derived as a result of processing of experimental data. The critical Reynolds number corresponding to the start of a self-similarity regime is established for fibrous packings.

Keywords

Porosity Reynolds Number Gaseous Flow Dynamic Viscosity Hydraulic Resistance 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

References

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    A. Yu. Valdberg, A. A. Moshkin, and I. G. Kamenschikov, Formation of Mist and Drop Collection in Gas-Cleaning Systems [in Russian], Izd. Dom Graal, Moscow (2003).Google Scholar
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    A. Yu. Valdberg and E. V. Polienova, “Absorption of CO2 in a fibrous mist collector,” Khim. Neft. Mashinostr., No. 3, 37–39 (2009).Google Scholar
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    A. A. Moshkin, A. Yu. Valdberg, and I. G. Kamenshchikov, “Fibrous mist-spray collectors,” Scientific and Technical Aspects of Environmental Conservation [in Russian], No. 1, VINITI, Moscow (2000), pp. 25–65.Google Scholar
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    I. E. Idelchik, Handbook on Hydraulic Resistance [in Russian], Gosenergoizdat, Moscow (1960).Google Scholar

Copyright information

© Springer Science+Business Media, Inc. 2010

Authors and Affiliations

  • E. V. Polienova
    • 1
  • A. Yu. Valdberg
    • 1
  1. 1.Moscow State University of Engineering Ecology (MGUIE)MoscowRussia

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