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http://dx.doi.org/10.6111/JKCGCT.2010.20.3.125

Influence of thermo-physical properties on solutal convection by physical vapor transport of Hg2Cl2-N2 system: Part I - solutal convection  

Kim, Geug-Tae (Department of Nano-Bio Chemical Engineering, Hannam University)
Kim, Young-Joo (Bioinformatics Research Center, Korea Research Institute of Bioscience and Biotechnology)
Publication Information
Journal of the Korean Crystal Growth and Crystal Technology / v.20, no.3, 2010 , pp. 125-132 More about this Journal
Abstract
For typical governing dimensionless parameters of Ar = 5, Pr = 1.16, Le = 0.14, Pe = 3.57, Cv = 1.02, $Gr_s=2.65{\times}10^6$, the effects of thermo physical properties such as a molecular weight, a binary diffusivity coefficient, a partial pressure of component B on solutally buoyancy-driven convection (solutal Grashof number $Gr_s=2.65{\times}10^6$) are theoretically investigated for further understanding and insight into an essence of solutal convection occurring in the vapor phase during the physical vapor transport of a $Hg_2Cl_2-N_2$ system. The solutally buoyancy-driven convection is significantly affected by any significant disparity in the molecular weight of the crystal components and the impurity gas of nitrogen. The solutal convection in a vertical orientation is found to be more suppressed than a tenth reduction of gravitational accelerations in a horizontal orientation. For crystal growth parameters under consideration, the greater uniformity in the growth rate is obtained for either solutal convection mode in a vertical orientation or thermal convection mode in horizontal geometry. The growth rate is also found to be first order exponentially decayed for $10{\leq}P_B{\leq}200$ Torr.
Keywords
Mercurous chloride; Solutal convection; Nitrogen and physical vapor transport (PVT);
Citations & Related Records
Times Cited By KSCI : 7  (Citation Analysis)
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