Issue |
E3S Web Conf.
Volume 258, 2021
Ural Environmental Science Forum “Sustainable Development of Industrial Region” (UESF-2021)
|
|
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Article Number | 08020 | |
Number of page(s) | 6 | |
Section | Environmental Protection and Pollution Control | |
DOI | https://doi.org/10.1051/e3sconf/202125808020 | |
Published online | 20 May 2021 |
Modeling the process of force load generation at the initial periodic change in pressure (a plane problem)
1 Tashkent State Technical University named after Islam Karimov, 2, Universitetskaya Str., 100174, Tashkent, Uzbekistan
2 Olmalik branch of Tashkent State Technical University named after Islam Karimov, 2, M. Ulugbek Str., 110100, Olmalik, Uzbekistan
* Corresponding author: mukhiddinkhudjaev@gmail.com
The article deals with modeling the process of force load generation at an initial periodic change in pressure (a plane problem). The subject of research is a pulsating flow in a flat channel at an initial periodic pressure change. The determination of flow parameters with a periodic change in the inlet pressure; the changes in the structure of the working fluid associated with the release of various particles from the pipe walls, the addition of impurities to prevent leaks, and the high-speed modes, are given in the article considering the law of molecular and molar transfer between layers. Research methods are based on Newton’s rheological law, according to which molecular transfer is described by the law of proportionality of stresses to the derivative of the normal velocity; on the method of accounting for molar transfer by proportionality of stresses to the derivative of normal acceleration; on the method of mathematical modeling and the analytical method for their solutions, based on the provisions of operational calculus. An analytical solution to the problem of pulsating fluid motion in a plane-parallel channel is obtained with allowance for single and group transfer of molecules in the flow. The application of the analytical expressions obtained for the velocities is not limited to the critical Reynolds number, i.e. they are applied for any values of this number. Analytical expressions are obtained for the transverse and longitudinal components of the flow velocity. The resulting solution describes two zones of flow: in the first zone, two types of transfer occur, depending on the flow pattern, either molecular or molar transfer of fluid volumes between the layers prevails. In the second zone, only molecular transfer occurs.
© The Authors, published by EDP Sciences, 2021
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