Add to ORKGCalculations were performed with computer models using three types of finite difference methods of thermosolutal convection: horizontal heating of a container filled with a stably stratified solution, finger convection in a container, and finger convection in a horizontally infinite channel. The importance of including thermosolutal convection in models of crystal growth is emphasized, and the difficulties in doing so are demonstrated. It is pointed out that these difficulties, due primarily to the fine structure of the convection, may be partly overcome by the use of fine grids and implicit time stepping methods
We numerically investigate the effects of various boundary conditions on the flow field characterist...
The fluid mechanics and heat transfer of motions driven by surface tension gradients (Marangoni conv...
The surface temperature distributions due to thermocapillary convections in a thin liquid layer with...
The transient and steady thermal convection in microgravity is described. The approach is applicable...
Specific work done during an indicated contract period was reviewed. An extensive survey of crystal ...
This project was concerned with the determination of conditions of guaranteed stability and instabil...
In crystal growth devices, in order to control the growth defects and compositional homogeneity of t...
The objective was to study thermocapillary convection in a transparent floating zone. The floating z...
Numerical methods are used to design a spherical baroclinic flow model experiment of the large scale...
A computer code for the numerical simulation of crystal growth in a three-dimensional container incl...
The influence of thermocapillary or Marangoni convection on the growth of silicon crystals is invest...
Various studies of the concentration of the solution around a growing crystal using interferometric ...
The hydrodynamics of crystal-growth melts is a relatively new research area. Numerical modeling of t...
The theoretical analysis of the fluid mechanics and heat transfer of motions driven by surface tensi...
Thermocapillary convection in a transparent floating zone is studied. Equations are derived to relat...
We numerically investigate the effects of various boundary conditions on the flow field characterist...
The fluid mechanics and heat transfer of motions driven by surface tension gradients (Marangoni conv...
The surface temperature distributions due to thermocapillary convections in a thin liquid layer with...
The transient and steady thermal convection in microgravity is described. The approach is applicable...
Specific work done during an indicated contract period was reviewed. An extensive survey of crystal ...
This project was concerned with the determination of conditions of guaranteed stability and instabil...
In crystal growth devices, in order to control the growth defects and compositional homogeneity of t...
The objective was to study thermocapillary convection in a transparent floating zone. The floating z...
Numerical methods are used to design a spherical baroclinic flow model experiment of the large scale...
A computer code for the numerical simulation of crystal growth in a three-dimensional container incl...
The influence of thermocapillary or Marangoni convection on the growth of silicon crystals is invest...
Various studies of the concentration of the solution around a growing crystal using interferometric ...
The hydrodynamics of crystal-growth melts is a relatively new research area. Numerical modeling of t...
The theoretical analysis of the fluid mechanics and heat transfer of motions driven by surface tensi...
Thermocapillary convection in a transparent floating zone is studied. Equations are derived to relat...
We numerically investigate the effects of various boundary conditions on the flow field characterist...
The fluid mechanics and heat transfer of motions driven by surface tension gradients (Marangoni conv...
The surface temperature distributions due to thermocapillary convections in a thin liquid layer with...