Article

Plasma Investigations
2016. V. 54. № 5. P. 619–626
Grishin Yu.M., Kozlov N.P., Skryabin A.S.
Efficiency of the plasma-chemical method of preparation of silicon from quartz in an argon-hydrogen flow
Annotation
A kinetic model of nonequilibrium chemical processes in gas mixtures of $\rm Si$, $\rm O$, $\rm H$, and $\rm Ar$ and a model of the calculation of the main parameters of plasma facilities for the implementation of the plasmachemical method of the direct preparation of silicon from quartz in argon–hydrogen gas-plasma flows have been formulated. The criteria and general conditions at which the maximal yield of silicon is achieved were determined. The main mode and construction parameters of plasma facilities were determined. It is shown that at the consumed electrical power of a stationary plasmatron of $100$ kW the calculated efficiency of the facility (over vapor $\rm Si$) could be on the order of $10^{–2}$ g/s.
Article reference:
Grishin Yu.M., Kozlov N.P., Skryabin A.S. Efficiency of the plasma-chemical method of preparation of silicon from quartz in an argon-hydrogen flow, High Temp., 2016. V. 54. № 5. P. 619