Normal solution and transport coefficients to the Enskog-Landau kinetic equation for a two-component system of charged hard spheres. The Chapman-Enskog method
作者: A.E. Kobryn , M.V. Tokarchuk , I.P. Omelyan
DOI: 10.1016/S0378-4371(99)00046-1
关键词: Boundary value problem 、 Thermodynamics 、 Physics 、 Coulomb 、 Hard spheres 、 Thermal conductivity 、 Two-component regulatory system 、 Thermal diffusivity 、 Non-equilibrium thermodynamics 、 Binary number
摘要: Abstract An Enskog–Landau kinetic equation for a many-component system of charged hard spheres is proposed. This obtained from the Liouville with modified boundary conditions by method nonequilibrium statistical operator. On basis this normal solution and transport coefficients such as bulk κ shear η viscosities, thermal conductivity λ , mutual diffusion D αβ T α are binary mixture in first approximation using Chapman–Enskog method. Numerical calculations Ar–Kr, Ar–Xe, Kr–Xe mixtures different concentrations compounds have been evaluated cases absence presence long-range Coulomb interactions. The results compared those other theories experiment.
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sci-hub.st 参考文章(34)
H. M. Schaink, C. Hoheisel, Molecular-dynamics study of the velocity-autocorrelation function and the self-diffusion coefficient in multicomponent mixtures. Physical Review A. ,vol. 45, pp. 8559- 8565 ,(1992) , 10.1103/PHYSREVA.45.8559
Sten Sarman, Denis J. Evans, Andras Baranyai, Mutual and self-diffusion in fluids undergoing strong shear Physical Review A. ,vol. 46, pp. 893- 902 ,(1992) , 10.1103/PHYSREVA.46.893
Zbigniew Banach, Extended thermodynamics of fluids versus the revised Enskog equation Physica A-statistical Mechanics and Its Applications. ,vol. 145, pp. 105- 138 ,(1987) , 10.1016/0378-4371(87)90243-3
Z. Badirkhan, G. Pastore, M.P. Tosi, Charged hard spheres in a uniform neutralizing background: the role of thermodynamic self consistence Molecular Physics. ,vol. 74, pp. 1089- 1096 ,(1991) , 10.1080/00268979100102821
D. N. Zubarev, V. G. Morozov, I. P. Omelyan, M. V. Tokarchuk, Kinetic equations for dense gases and liquids Theoretical and Mathematical Physics. ,vol. 87, pp. 412- 424 ,(1991) , 10.1007/BF01016582
G Kahl, G Pastore, Percus-Yevick pair-distribution functions of a binary hard-sphere system covering the whole r-range Journal of Physics A. ,vol. 24, pp. 2995- 3012 ,(1991) , 10.1088/0305-4470/24/13/015
H. J. M. Hanley, Max Klein, APPLICATION OF THE m-6-8 POTENTIAL TO SIMPLE GASES. The Journal of Physical Chemistry. ,vol. 76, pp. 1743- 1751 ,(1972) , 10.1021/J100656A013
A.E. Kobryn, V.G. Morozov, I.P. Omelyan, M.V. Tokarchuk, Enskog-Landau kinetic equation. Calculation of the transport coefficients for charged hard spheres Physica A-statistical Mechanics and Its Applications. ,vol. 230, pp. 189- 201 ,(1996) , 10.1016/0378-4371(96)00044-1
J. L. Lebowitz, Exact Solution of Generalized Percus-Yevick Equation for a Mixture of Hard Spheres Physical Review. ,vol. 133, pp. 895- 899 ,(1964) , 10.1103/PHYSREV.133.A895
David B. Boercker, Kinetic theory of electrical conductivity in plasmas Physical Review A. ,vol. 23, pp. 1969- 1981 ,(1981) , 10.1103/PHYSREVA.23.1969