Electrotechnology for Silicon Refining: Plasma Generator and Arc Furnace: Installations and Theoretical Base
The photovoltaic and the semiconductor industries are
in growth and it is necessary to supply a large amount of silicon to
maintain this growth. Since silicon is still the best material for the
manufacturing of solar cells and semiconductor components so the
pure silicon like solar grade and semiconductor grade materials are
demanded. There are two main routes for silicon production:
metallurgical and chemical. In this article, we reviewed the
electrotecnological installations and systems for semiconductor
manufacturing. The main task is to design the installation which can
produce SOG Silicon from river sand by one work unit.
[1] Jafar Safariana, Gabriella Tranella, Merete Tangstada. Technoport
RERC Research 2012 "Processes for upgrading metallurgical grade
silicon to solar grade silicon"
[2] Afanasyev VD; VD Gorokhov, BG Gribov, Evdokimov BA, KV
Zinoviev, GY Krasnikov; Patent RU № 2367600 "Method of obtaining
high-purity silicon "
[3] A. Kravtsov Patent RU № 2403300 "Method of vacuum cleaning silicon
and device for its implementation "
[4] Falkeevich E.S semiconductor silicon technology. Moscow, Metallurgy,
1992.
[5] VA Karelin Patent RU № 2078034 "Method of obtaining high-purity
polycrystalline silicon "
[6] A. Kravtsov Patent RU № 2403299 "Method for vacuum cleaning of
silicon and device for its implementation "
[7] Low-temperature plasma. Authors VD Parkhomenko, PI Soroka, Y.
Krasnokutsky.
[8] Structure and properties of the structures Si-SiO2-M V. N. Vertoprahov
BM Kuchumov E. G. Salman 1981
[9] Thermodynamics of evaporation of oxides. EK Kazenas, Y. Tsvetkov
[10] Technology of semiconductor and dielectric materials Yu.M.Tairov VF
Tsvetkov. 2002.
[1] Jafar Safariana, Gabriella Tranella, Merete Tangstada. Technoport
RERC Research 2012 "Processes for upgrading metallurgical grade
silicon to solar grade silicon"
[2] Afanasyev VD; VD Gorokhov, BG Gribov, Evdokimov BA, KV
Zinoviev, GY Krasnikov; Patent RU № 2367600 "Method of obtaining
high-purity silicon "
[3] A. Kravtsov Patent RU № 2403300 "Method of vacuum cleaning silicon
and device for its implementation "
[4] Falkeevich E.S semiconductor silicon technology. Moscow, Metallurgy,
1992.
[5] VA Karelin Patent RU № 2078034 "Method of obtaining high-purity
polycrystalline silicon "
[6] A. Kravtsov Patent RU № 2403299 "Method for vacuum cleaning of
silicon and device for its implementation "
[7] Low-temperature plasma. Authors VD Parkhomenko, PI Soroka, Y.
Krasnokutsky.
[8] Structure and properties of the structures Si-SiO2-M V. N. Vertoprahov
BM Kuchumov E. G. Salman 1981
[9] Thermodynamics of evaporation of oxides. EK Kazenas, Y. Tsvetkov
[10] Technology of semiconductor and dielectric materials Yu.M.Tairov VF
Tsvetkov. 2002.
@article{"International Journal of Electrical, Electronic and Communication Sciences:71531", author = "Ashot Navasardian and Mariam Vardanian and Vladik Vardanian", title = "Electrotechnology for Silicon Refining: Plasma Generator and Arc Furnace: Installations and Theoretical Base", abstract = "The photovoltaic and the semiconductor industries are
in growth and it is necessary to supply a large amount of silicon to
maintain this growth. Since silicon is still the best material for the
manufacturing of solar cells and semiconductor components so the
pure silicon like solar grade and semiconductor grade materials are
demanded. There are two main routes for silicon production:
metallurgical and chemical. In this article, we reviewed the
electrotecnological installations and systems for semiconductor
manufacturing. The main task is to design the installation which can
produce SOG Silicon from river sand by one work unit.", keywords = "Metallurgical grade silicon, solar grade silicon,
impurity, refining, plasma.", volume = "9", number = "4", pages = "484-4", }