Education and tutorial in modeling of elementary flows, heat and mass transfer during crystal growth in ground-based and microgravity environment

M.K. Ermakov; S.A. Nikitin; V.I. Polezhaev; V.P. Yaremchuk

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Education and tutorial in modeling of elementary flows, heat and mass transfer during crystal growth in ground-based and microgravity environment

机译：在地面和微重力环境中晶体生长过程中基本流动，传热和传质建模的教育和辅导

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Our experience in education and tutorials regarding the modeling of elementary flows, heat and mass transfer during crystal growth in ground-based and microgravity environment using the computer system convection in microgravity and applications is presented. The system supports free and forced convection problems on the basis of the Navier-Stokes equations for the Boussinesq approach. The computer laboratory as the intellectual shell of this system includes basic double-diffusion gravity-driven and Marangoni problems in enclosures, a Bridgman model, and a Czochralski model for microgravity and ground-based applications.

机译：介绍了我们在微重力和计算机应用中使用计算机系统对流技术在晶体生长过程中的基本流，传热和传质建模方面的教育经验和教程。该系统基于Boussinesq方法的Navier-Stokes方程支持自由对流和强迫对流问题。作为该系统智能外壳的计算机实验室，在外壳中包括基本的双扩散重力驱动和Marangoni问题，适用于微重力和地面应用的Bridgman模型和Czochralski模型。

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来源
《Journal of Crystal Growth》 |2004年第3期|p.388-395|共8页
作者
M.K. Ermakov; S.A. Nikitin; V.I. Polezhaev; V.P. Yaremchuk;
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作者单位

The Institute for Problems in Mechanics, Russian Academy of Sciences, Prospect Vernadskogo 101 bl, Moscow 119526, Russia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类晶体学;
关键词
A1. Buoyancy-driven instability; A1. education; A1. Ground-based; A1. microgravity conditions; A1. tutorial; A1. marangoni convection; A2. bridgman technique; A2. czochralski method;

机译：A1。浮力驱动的不稳定性;A1。教育;A1。地面型;A1。微重力条件;A1。教程;A1。马兰戈尼对流;A2。布里奇曼技术;A2。 czochralski方法;

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机译：高温水平定向结晶在大晶体生长中传热传质的物理模拟
3. 3D unsteady and steady modeling of heat and mass transfer during Cz Si crystal growth with a horizontal magnetic field [J] . A. Kondratyev, S. Demina, A. Smirnov, International Journal of Heat and Mass Transfer . 2021,第Octa期

机译：CZ Si晶体生长与水平磁场的3D不稳定和稳定建模
4. A CONTACT-FREE CONTROL OVER HEAT-MASS-TRANSFER PROCESSES IN A CRYSTAL GROWTH THROUGH HEAT FIELD ROTATION UNDER MICROGRAVITY CONDITIONS [C] . A.E. Kokh, P.W. Mokrushnikov, V.N. Popov Fourth International Conference on Single Crystal Growth and Heat amp; Mass Transfer (ICSC - 2001) Vol.4; Sep 24-28, 2001; Obninsk, Russia . 2001

机译：微重力条件下通过热场旋转对晶体生长中传热过程的无接触控制
5. Heat transfer, fluid flow, and transport control during hydrothermal growth of quartz single crystals. [D] . Li, Hongmin. 2004

机译：石英单晶水热生长过程中的传热，流体流动和传输控制。
6. Numerical model of protein crystal growth in a diffusive field such as the microgravity environment [O] . Hiroaki Tanaka, Susumu Sasaki, Sachiko Takahashi, -1

机译：在微重力环境下扩散场中蛋白质晶体生长的数值模型
7. Discussion: “Force Convection Heat Transfer at an Inclined and Yawed Square Plate—Application to Solar Collectors” (Sparrow, E. M., and Tien, K. K., 1977, ASME J. Heat Transfer, 99, pp. 507–512) and “Local Heat Transfer and Fluid Flow Characteristics for Airflow Oblique or Normal to Square Plate” (Tien, K. K., and Sparrow, E. M., 1979, Internation Journal of Heat and Mass Transfer, 22, pp. 349–359) and “Effect of Finite Width on Heat Transfer and Fluid Flow about an Inclined Rectangular Plate” (Sparrow, E. M., Ramsey, J. W., and Mass, E. A., 1979, ASME J. Heat Transfer, 101, pp. 199–204) [O] . B. Nimmo, S. Zubair 1981

机译：讨论：“在倾斜和偏航的方形板应用于太阳能收集器的强制对流传热”（Sparrow，EM和Tien，KK，1977，Asme J.传热，99，PP。507-512）和“局部热量用于气流倾斜或正常板的转移和流体流动特性“（Tien，KK和Sparrow，EM，1979，热量和传质杂志，22，pp.349-359）和”有限宽度对热量的影响关于倾斜矩形板的转移和流体流动“（Sparrow，EM，Ramsey，JW和Mass，EA，1979，ASME J.传热，101，PP。199-204）
8. Models of Mass Transport During Microgravity Crystal Growth of Alloyed Semiconductors in a Magnetic Field [R] . Ma, N. 2003

机译：磁场中合金半导体微重力晶体生长过程中的质量传递模型

Education and tutorial in modeling of elementary flows, heat and mass transfer during crystal growth in ground-based and microgravity environment

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