Slip Flow over a Smooth Platinum Surface
スポンサーリンク
概要
- 論文の詳細を見る
The molecular dynamics method for the interaction of gas molecules with a solid wall together with the Monte-Carlo method for the motion of gas molecules are applied to analyze the behavior of a slightly rarefied gas between two walls. The walls consist of platinum molecules, and the gas is taken to be xenon or argon. The Couette flow and the thermal problem for which two walls have different temperatures are considered. The slip and jump coefficients, tangential momentum and energy accommodation coefficients are obtained at the wall whose temperature is 300 K. The tangential momentum accommodation coefficient of argon is as low as 0.19. The distribution functions of the reflected molecules are also obtained, and it is found that the Maxwell-type boundary condition describes well the distribution function of the reflected molecules.
- 一般社団法人日本機械学会の論文
- 2002-11-15
著者
-
Yamamoto Kyoji
Department Of Mechanical Engineering Faculty Of Engineering Okayama University
-
Yamamoto Kyoji
Department Of Aeromautical Engineering Faculty Of Engineering Kyoto University
関連論文
- Laparoscopic management of common bile duct stones : transcystic approach and choledochotomy
- Fibromatosis of the mesoappendix
- Flat Plate Wing Standing on a Wall Covered with a Thick Boundary Layer : Wing Characteristics under the Effects of Side Wall Boundary Layer and Wing Tip Vortex
- Flow in a rotating curved duct with rectangular cross section
- Flow in a Helical Pipe of Square Cross Section
- Flow of Rarefied Gas over Plane Wall
- Flow of Fluid through an Inhomageneous Porous Medium
- Pathogenesis and the role of bacteria in acute cholecystitis
- Flow Through a Rotating Curved Duct with Square Cross-Section
- Flow through a Porous Wall with Convective Acceleration