Analysis of mixed convection in the Czochralski model in a wide range of Prandtl numbers
DOI10.1134/S001546281703005XzbMath1370.76050OpenAlexW2653424502MaRDI QIDQ2402750
Publication date: 14 September 2017
Published in: Fluid Dynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1134/s001546281703005x
forced convectionnumerical simulationconvective interactionflow stabilityhydrodynamic Czochralski modelthermal gravitational convectioncrystal growth from the melt
Multiphase and multicomponent flows (76T99) Free convection (76R10) Convection in hydrodynamic stability (76E06) Forced convection (76R05) Rotation in hydrodynamic stability (76E07)
Related Items (1)
Cites Work
- Effect of crystal and crucible rotation on the flow stability in the Czochralski model at low Prandtl numbers
- Regime diagram and three-dimensional effects of convective interactions in the hydrodynamic Czochralski model
- Convective interactions and flow stability in the Czochralski model in the case of crystal rotation
- A stable and accurate convective modelling procedure based on quadratic upstream interpolation
- The Coriolis force effect on molten silicon convection in a rotating crucible
- Three-dimensional effects in transitional and turbulent Czochralski thermal convection regimes
- Three-dimensional convective instability and temperature oscillations in Czochralski crystal growth
- A second-order projection method for the incompressible Navier-Stokes equations
- Instabilities of thermal gravitational convection and heat transfer in the Czochralski model at different Prandtl numbers
- Curvature-compensated convective transport: SMART, A new boundedness- preserving transport algorithm
- A Fast Direct Solution of Poisson's Equation Using Fourier Analysis
This page was built for publication: Analysis of mixed convection in the Czochralski model in a wide range of Prandtl numbers
