Models of boundary condition for the Boltzmann equation based on kinetic approach

Shingo Kosuge; Kazuo Aoki; Vincent Giovangigli

Models of boundary condition for the Boltzmann equation based on kinetic approach

Shingo Kosuge
, Kazuo Aoki
, Vincent Giovangigli

Research output: Contribution to journal › Article › peer-review

Abstract

Models of the boundary conditions for the Boltzmann equation were constructed systematically in a recent paper by the present authors (K. Aoki et al., in: Phys. Rev. E 106:035306, 2022) using an iteration scheme for the half-space problem of a linear kinetic equation describing the behavior of gas and physisorbed molecules in a thin layer adjacent to a solid surface (physisorbate layer). In the present paper, special attention is focused on the model based on the second iteration that was only touched on in the above reference. The model is presented in an explicit form, and its properties are investigated numerically. In particular, it is shown by the comparison with the numerical solution of the half-space problem that the model is a significant improvement compared with the model based on the first iteration and is accurate and useful.

Original language	English
Pages (from-to)	1-29
Number of pages	29
Journal	Rivista di Matematica della Universita di Parma
Volume	15
Issue number	1
Publication status	Published - 1 Jan 2024

Keywords

Boltzmann equation
adsorbate layer
boundary conditions
gas-surface interaction
kinetic theory

Cite this

@article{2711cd1597854d25a68df25d9492e089,

title = "Models of boundary condition for the Boltzmann equation based on kinetic approach",

abstract = "Models of the boundary conditions for the Boltzmann equation were constructed systematically in a recent paper by the present authors (K. Aoki et al., in: Phys. Rev. E 106:035306, 2022) using an iteration scheme for the half-space problem of a linear kinetic equation describing the behavior of gas and physisorbed molecules in a thin layer adjacent to a solid surface (physisorbate layer). In the present paper, special attention is focused on the model based on the second iteration that was only touched on in the above reference. The model is presented in an explicit form, and its properties are investigated numerically. In particular, it is shown by the comparison with the numerical solution of the half-space problem that the model is a significant improvement compared with the model based on the first iteration and is accurate and useful.",

keywords = "Boltzmann equation, adsorbate layer, boundary conditions, gas-surface interaction, kinetic theory",

author = "Shingo Kosuge and Kazuo Aoki and Vincent Giovangigli",

year = "2024",

month = jan,

day = "1",

language = "English",

volume = "15",

pages = "1--29",

journal = "Rivista di Matematica della Universita di Parma",

issn = "0035-6298",

number = "1",

}

TY - JOUR

T1 - Models of boundary condition for the Boltzmann equation based on kinetic approach

AU - Kosuge, Shingo

AU - Aoki, Kazuo

AU - Giovangigli, Vincent

PY - 2024/1/1

Y1 - 2024/1/1

N2 - Models of the boundary conditions for the Boltzmann equation were constructed systematically in a recent paper by the present authors (K. Aoki et al., in: Phys. Rev. E 106:035306, 2022) using an iteration scheme for the half-space problem of a linear kinetic equation describing the behavior of gas and physisorbed molecules in a thin layer adjacent to a solid surface (physisorbate layer). In the present paper, special attention is focused on the model based on the second iteration that was only touched on in the above reference. The model is presented in an explicit form, and its properties are investigated numerically. In particular, it is shown by the comparison with the numerical solution of the half-space problem that the model is a significant improvement compared with the model based on the first iteration and is accurate and useful.

AB - Models of the boundary conditions for the Boltzmann equation were constructed systematically in a recent paper by the present authors (K. Aoki et al., in: Phys. Rev. E 106:035306, 2022) using an iteration scheme for the half-space problem of a linear kinetic equation describing the behavior of gas and physisorbed molecules in a thin layer adjacent to a solid surface (physisorbate layer). In the present paper, special attention is focused on the model based on the second iteration that was only touched on in the above reference. The model is presented in an explicit form, and its properties are investigated numerically. In particular, it is shown by the comparison with the numerical solution of the half-space problem that the model is a significant improvement compared with the model based on the first iteration and is accurate and useful.

KW - Boltzmann equation

KW - adsorbate layer

KW - boundary conditions

KW - gas-surface interaction

KW - kinetic theory

UR - https://www.scopus.com/pages/publications/85218739228

M3 - Article

AN - SCOPUS:85218739228

SN - 0035-6298

VL - 15

SP - 1

EP - 29

JO - Rivista di Matematica della Universita di Parma

JF - Rivista di Matematica della Universita di Parma

IS - 1

ER -

Models of boundary condition for the Boltzmann equation based on kinetic approach

Abstract

Keywords

Other files and links

Fingerprint

Cite this