3D Modeling and optimization of SiC deposition from CH3SiCl3/H2 in a commercial hot wall reactor

Abstract

In this paper, the 3D modeling and optimization of a commercial hot wall vertical reactor for SiC coating is presented to investigate the effect of various process parameters on the hydrodynamic stability of the CVD reactor. The correlation between experimental and simulated results was established by tuning the kinetic parameters for the surface reaction. Besides, the incorporation of various dimensional numbers such as Reynolds number (Re), Péclet number (Pe), and Grashof number (Gr) enabled the systematic investigation of the effect of the natural convection phenomena on film growth performance. It was found that the buoyancy-driven flow can occur inside the reactor at a high Reynolds number and Gr/Re2 ratio. The process optimization was performed using response surface methodology (RSM) to obtain the desired film quality. The CFD-RSM collaborative approach allowed a significant reduction in the number of experiments and simulations required to optimize the CVD process. © 2020 Elsevier B.V.