Modeling of gas mixture separation in a multistage micropump based on the solution of the Boltzmann equation

Zhikharev I.M., Tcheremissine F.G., Kloss Y.Y.
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The paper simulates a mixture of gases in a multi-stage micro-pump and evaluates its effectiveness at separating the components of the mixture. A device in the form of a long channel with a series of transverse plates is considered. A temperature difference between the sides of the plates induces a radiometric gas flow within the device, and the differences in masses of the gases lead to differences in flow velocities and to the separation of the mixture. Modeling is based on the numerical solution of the Boltzmann kinetic equation, for which a splitting scheme is used, i. e., the advection equation and the relaxation problem are solved separately in alternation. The calculation of the collision integral is performed using the conservative projection method. This method ensures the strict fulfillment of the laws of conservation of mass, momentum, and energy, as well as the important asymptotic property of the equality of the integral of the Maxwell function to zero. Explicit first-order and second-order TVD-schemes are used to solve the advection equation. The calculations were performed for a neon-argon mixture using a model of solid spheres with real molecular diameters and masses. Software has been developed to allow calculations on personal computers and cluster systems. The use of parallelization leads to faster computation and constant time per iteration for devices of different sizes, enabling the modeling of large particle systems. It was found that the value of mixture separation, i. e. the ratio of densities at the ends of the device linearly depends on the number of cascades in the device, which makes it possible to estimate separation for multicascade systems, computer modeling of which is impossible. Flows and distributions of gas inside the device during its operation were analyzed. It was demonstrated that devices of this kind with a sufficiently large number of plates are suitable for the separation of gas mixtures, given that they have no moving parts and are quite simple in manufacture and less subject to wear.

Keywords: rarefied gas, gas mixtures, Boltzmann kinetic equation, conservative projection method, numerical modeling
Citation in English: Zhikharev I.M., Tcheremissine F.G., Kloss Y.Y. Modeling of gas mixture separation in a multistage micropump based on the solution of the Boltzmann equation // Computer Research and Modeling, 2024, vol. 16, no. 6, pp. 1417-1432
Citation in English: Zhikharev I.M., Tcheremissine F.G., Kloss Y.Y. Modeling of gas mixture separation in a multistage micropump based on the solution of the Boltzmann equation // Computer Research and Modeling, 2024, vol. 16, no. 6, pp. 1417-1432
DOI: 10.20537/2076-7633-2024-16-6-1417-1432
URL: http://crm-en.ics.org.ru/journal/article/3545/
Creative Commons License This work is licensed under a Creative Commons Attribution-NoDerivs 3.0 Unported License.

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