Features of the flow of fluid through capillary tubes (pores, meshes) as a function of the temperature of the heattransfer agent (air) are considered. Representations of the thermophysical characteristics of such quantities as the temperature, velocity, and viscosity of the fluid are presented. The characteristic of the propagation of heat exchange in the capillary tubes of textile material and the flow parameters of the laminar flow regime, which exerts a slight influence on its structure, is presented. The relationship between the results obtained in the solution of the planar problem is investigated.
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V. A. Sterlisov, A. A. Suleymanov, et al., Heat exchange in the flow of fluid through tubular channels, in: Proc. III Russian National Conference on Heat Exchange [in Russian], in 8 vols., vol. 2: Forced Convection of Single-Phase Fluid, MEI, Moscow (2002), 304 pp.
S. M. Targ, Fundamental Problems in the Theory of Laminar Flows [in Russian], Izd. Tekh. Teor. Lit., Moscow-Leningrad (1951), 420 pp.
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Translated from Khimicheskie Volokna, 48, No. 5, pp. 25–28, September–October, 2016.
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Osmanov, Z.N., Sharpar, N.M. An Experimental Investigation of the Process of Fluid Flow in Textile Material with Channels of Complex Geometry. Fibre Chem 48, 379–383 (2017). https://doi.org/10.1007/s10692-017-9802-1
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DOI: https://doi.org/10.1007/s10692-017-9802-1