Numerical Simulation of Thermal-Solutal Capillary-Buoyancy Flow of Ge1–xSix Single Crystals Driven by Surface-Tension and Rotation in a Czochralski Configuration

The quasi‐lattice model of NaCl melt is proposed by the ion movement characteristics, melt structure, and radial distribution function of ions, which is composed of regular and irregular regions. These regions are connected by an irregular interface with a thickness of several sublayers, and the ions on the interface are continuously and rapidly transferred. The mixed transmission kinetic equation of NaCl melt is analyzed theoretically by using the heat transfer equation and hydrodynamic equation. The liquid flow effect of NaCl melt and the temperature distribution in crystal are analyzed according to the numerical results. It is found that the shape of a solid–liquid interface will change with the rotation rate or diameter increase. The related properties of the NaCl melt are calculated. These studies of the NaCl melt provide theoretical support to a further study on crystal growth, other alkali halide, and alkaline earth metal halide melt.

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The Structure and Liquid Flow Effect of Melt during NaCl Crystal Growth

Yang

Zhang

et al. 2020

Crystal Research and Technology

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Comprehensive heat transfer performance analysis of nanofluid mixed forced and thermocapillary convection around a gas bubble in minichannel

Jiang

Zhou

Wang

2020

International Communications in Heat and Mass Transfer

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Numerical Simulation of Thermal-Solutal Capillary-Buoyancy Flow of Ge1–xSix Single Crystals Driven by Surface-Tension and Rotation in a Czochralski Configuration

Cited by 2 publications

References 40 publications

The Structure and Liquid Flow Effect of Melt during NaCl Crystal Growth

The Structure and Liquid Flow Effect of Melt during NaCl Crystal Growth

Comprehensive heat transfer performance analysis of nanofluid mixed forced and thermocapillary convection around a gas bubble in minichannel

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