Yasuda, S.   Takata, S.   Aoki, K.   
Physics of Fluids 17(4) 2005年 [査読有り]
Half-space problem of evaporation and condensation of a binary mixture of vapors is investigated on the basis of the linearized Boltzmann equation for hard-sphere molecules with the complete condensation condition. The problem is analyzed numerica...
Yasuda, S.   Takata, S.   Aoki, K.   
Physics of Fluids 16(6) 1989-2003 2004年 [査読有り]
The shear flow of a binary mixture of rarefied gases over a plane wall is investigated on the basis of the linearized Boltzmann equation for hard-sphere molecules with the diffuse reflection boundary condition. This fundamental problem in rarefied...
S Takata   S Yasuda   K Aoki   T Shibata   
RAREFIED GAS DYNAMICS 663 106-113 2003年 [査読有り]
A steady state of a binary mixture of hard-sphere gases in the near continuum regime, where the Knudsen number is small, is considered in the case where the density and temperature variations are large, but the Mach number of the flow is as small ...
Takata, S.   Yasuda, S.   Kosuge, S.   Aoki, K.   
Physics of Fluids 15(12) 3745-3766 2003年 [査読有り]
The thermal-slip (thermal-creep) and the diffusion-slip problems for a binary mixture of gases are investigated on the basis of the linearized Boltzmann equation for hard-sphere molecules with the diffuse reflection boundary condition. The problem...
A kinetic transport equation for chemotactic bacteria, i.e., a kinetic chemotaxis equation, coupled with reaction-diffusion equations for chemoattractants is considered. The Keller-Segel type equation for the population density of bacteria is deri...