Gas-dynamic resistance of a fibre layer
Chemistry And Technology Of Chemical Fibres
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Abstract
An equation was obtained for calculating the flow of a gas through a layer of parallel cylinders positioned perpendicular to the direction of gas flow by using the plane channel approximation. The broader applicability of the equation for calculating the gas-dynamic resistance of a layer of fibres in comparison to the published data was demonstrated for the given case of gas flow.
Keywords
Polymer Channel Approximation Fibre Layer Plane Channel Broad Applicability
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References
- 1.S. P. Burke and W. B. Plummer, J. Ind. Eng. Chem., 20, No. 11, 1197–1200 (1928).Google Scholar
- 2.O. Emersleben, Phys. Zeitschr., 26, 601–610 (1925).Google Scholar
- 3.P. S. Carman, Trans. Inst. Chem. Eng., 15, 150–166 (1937).Google Scholar
- 4.A. V. Lykov, Handbook of Heat and Mass Exchange [in Russian], Energiya, Moscow (1978).Google Scholar
- 5.King, Physical Methods of Investigation of Textile Materials [Russian translation], Gizlegprom, Moscow (1963), pp. 261–280 [As in Russian original — Publisher].Google Scholar
- 6.E. Lord, J. Text. Inst., 46, No. 3, T191-T213 (1955).Google Scholar
- 7.B. S. Vinogradov, Applied Gas Dynamics [in Russian], Patrice Lumumba University Publishing House, Moscow (1965).Google Scholar
- 8.H. Schlichting, Boundary Layer Flow, McGraw-Hill, New York (1960).Google Scholar
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© Plenum Publishing Corporation 1993