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Numerical modeling of physical vapor transport in a vertical cylindrical ampoule, with and without gravity

机译：垂直圆柱安瓿物理蒸汽输运的数值模拟，有重力和无重力

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Numerical modeling has been performed of the fluid dynamics in a prototypical physical vapor transport crystal growing situation. Cases with and without gravity have been computed. Dependence of the flows upon the dimensionless parameters aspect ratio and Peclet, Rayleigh, and Schmidt numbers is demonstrated to a greater extent than in previous works. Most notably, it is shown that the effects of thermally-induced buoyant convection upon the mass flux on the growth interface crucially depend upon the temperature boundary conditions on the sidewall (e.g., whether adiabatic or of a fixed profile, and in the latter case the results depend upon the shape of the profile assumed).

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Miller, T. L.;
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年度 1986
页码 1-23
总页数 23
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
COMPUTATIONAL FLUID DYNAMICS; CRYSTAL GROWTH; MATHEMATICAL MODELS; MICROGRAVITY; TRANSPORT PROPERTIES; VAPOR PHASE EPITAXY; BUOYANCY; CONVECTIVE FLOW; INTERFACES; PECLET NUMBER; REYNOLDS NUMBER; SCHMIDT NUMBER; SPACE COMMERCIALIZATION; THERMAL ENVIRONMENTS;

机译：计算流体动力学;晶体生长;数学模型;微重力;运输特性; VapOR pHasE EpITaXY;浮力;对流;接口， pECLET号码; REYNOLDs NUmBER; sCHmIDT号码;空间商业化;热环境;

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1. Dynamics of a vapor bubble inside a vertical rigid cylinder with and without a deposit rib [J] . Nourbakhsh A., Rouzbahani F. Archives of Mechanics . 2016,第2期

机译：带有和不带有沉积肋的立式刚性圆柱体内的汽泡动力学
2. Calculation of gravity due to a vertical cylinder using a spherical harmonic series and numerical integration [J] . Na Sung-Ho, Rim Hyoungrea, Shin Young-Hong, Exploration Geophysics . 2015,第4期

机译：使用球谐序列和数值积分计算垂直圆柱体引起的重力
3. Numerical simulation of cylindrical heat pipe considering non-Darcian transport for liquid flow inside wick and mass flow rate at liquid-vapor interface [J] . N. Pooyoo, S. Kumar, J. Charoensuk, International Journal of Heat and Mass Transfer . 2014,第mara期

机译：考虑非Darcian毛细内部液体流动和液-气界面质量流率的圆柱形热管的数值模拟
4. Numerical simulation of crystal growth by physical vapor transport in microgravity environments [C] . N.Zhou, A.Krishnan AIAA 33rd Aerospace Seicnces Meeting and Exhibit January 9-12, 1995/Reno, NV . -1

机译：在微重力环境下通过物理气相传输进行晶体生长的数值模拟
5. Numerical investigation of physical vapor and particulate transport under microgravity conditions. [D] . Tebbe, Patrick Albert. 1997

机译：在微重力条件下物理蒸气和颗粒传输的数值研究。
6. Experiment-based modelling of a vapor draw ampoule used for low-volatility precursors [O] . Brent A. Sperling, James E. Maslar -1

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7. Numerical Investigation of Concentric Cylinder Latent Heat Storage with / without Gravity and Buoyancy [O] . Waghmare A.V., Pise A.T. 2015

机译：带/不带重力和浮力的同心圆柱潜热存储的数值研究
8. Numerical Modeling of Physical Vapor Transport in a Vertical Cylindrical Ampoule, with and without Gravity [R] . Miller, T. L. 1986

机译：垂直圆柱安瓿有无重力物理气相输运的数值模拟

Numerical modeling of physical vapor transport in a vertical cylindrical ampoule, with and without gravity

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