Separation of gases using ultra-thin porous layers of monodisperse nanoparticles M. A. Bubenchikov, A. M. Bubenchikov, O. V. Usenko [et.al.]
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ArticleSubject(s): монодисперсные наночастицы | численное решение | двумерные задачи | движение молекул | гелий | метанGenre/Form: статьи в журналах Online resources: Click here to access online
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EPJ Web of Conferences Vol. 110. P. 01014 (1-6)Abstract: The present paper deals with a numerical solution of the two-dimensional problem of helium and methane molecules motion through an ultra-thin layer of a porous material composed of spherical nanoparticles of the same size. The interaction potential “nanoparticle-molecule” is obtained by integrating paired molecular interactions over the nanoparticle volume. Using the method of classical molecular dynamics, permeability of a layer having the size of about 10−8 m is studied.
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The present paper deals with a numerical solution of the two-dimensional problem of helium and methane molecules motion through an ultra-thin layer of a porous material composed of spherical nanoparticles of the same size. The interaction potential “nanoparticle-molecule” is obtained by integrating paired molecular interactions over the nanoparticle volume. Using the method of classical molecular dynamics, permeability of a layer having the size of about 10−8 m is studied.
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