Utilization of Dust from Silicon Production

Silicon production by the reduction of quartzite in furnaces is accompanied by copious dust emissions containing a high proportion of valuable silica (86%, on average). It is of great interest to capture that dust for reuse in the process. The dust captured in the gas-purification system consists of...

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Published inSteel in translation Vol. 47; no. 12; pp. 763 - 767
Main Authors Nemchinova, N. V., Mineev, G. G., Tyutrin, A. A., Yakovleva, A. A.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.12.2017
Springer Nature B.V
Subjects
Aluminum
Batch type furnaces
Bulk density
Charcoal
Chemistry and Materials Science
Drop tests
Dust
Fluxes
Furnaces
Hydrocarbons
Impact tests
Materials Science
Natural gas
Petroleum coke
Polycyclic aromatic hydrocarbons
Quartzite
Reducing agents
Silicon
Silicon carbide
Silicon dioxide
Tars
gas-purification sludge
silicon production
production wastes
waste utilization
reducing agents
batch pieces
cyclone dust
liquid glass
smelting
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Summary:Silicon production by the reduction of quartzite in furnaces is accompanied by copious dust emissions containing a high proportion of valuable silica (86%, on average). It is of great interest to capture that dust for reuse in the process. The dust captured in the gas-purification system consists of particles no larger than 120 μm, with a predominance of the 20–50 μm fraction. In order to use such dust in silicon production, it must be aggregated, so as to prevent its entrainment from the furnace by the gas fluxes. Since the batch pieces must be strong enough to withstand transportation, the binder employed is liquid glass with the addition of electrofilter dust from aluminum production, which contains tars (polyaromatic hydrocarbons). Strength tests of batch samples permit the recommendation of the following composition (by mass): 24–27% dust from silica production; 51–53% carbon reducing agent (a 1: 1 mixture of petroleum coke and charcoal); 4–5% silicon siftings; 14–15% binder (a 4:1 mixture of liquid glass and electrofilter dust from aluminum production). For such batch, the strength in drop tests is 82.5%, on average. Research shows that the batch pieces obtained by this method have a porous structure (45.5%) for the formation of a well-developed active surface and corresponding apparent density (1100 kg/cm 3 ). That supports stable furnace operation. Trials in an HTF 17/10 high-temperature furnace yield an intermediate product containing more than 44 wt % silicon carbide. On that basis, such dust aggregates may be added to the main batch in silicon production.
ISSN:0967-0912
1935-0988
1935-0988
DOI:10.3103/S0967091217120087