Solvent Refining of Metallurgical Grade Silicon Using Iron

Shaghayegh, Esfahani

31 December 2010

Purification of metallurgical grade silicon (MG- Si) by a combination of solvent refining and physical separation has been studied. MG-Si was alloyed with iron and solidified under different cooling rates to grow pure Si dendrites from the alloy. The Si dendrites and FeSi2 that were formed after solidification were then separated by a gravity-based method. The separation method relies on significantly different densities of Si and FeSi2, and uses a heavy liquid with specific gravity between the two phases to float the former on the surface of a heavy liquid, while the latter sinks to the bottom. The effect of particle size and cooling rate on the Si yield and separation efficiency of the Si phase was investigated. The floated Si particles were further purified by removing the physically adherent Fe-Si phase, using an acid leaching method. Analysis of the produced silicon indicates that several impurity elements including P and B can be efficiently removed using this simple and low-cost technique.

Metallurgical Grade Silicon

Solar Grade Silicon

Solvent Refining

Heavy Medium

Physical Separation

Gettering

0794

Solvent Refining of Metallurgical Grade Silicon Using Iron

Shaghayegh, Esfahani

31 December 2010

Purification of metallurgical grade silicon (MG- Si) by a combination of solvent refining and physical separation has been studied. MG-Si was alloyed with iron and solidified under different cooling rates to grow pure Si dendrites from the alloy. The Si dendrites and FeSi2 that were formed after solidification were then separated by a gravity-based method. The separation method relies on significantly different densities of Si and FeSi2, and uses a heavy liquid with specific gravity between the two phases to float the former on the surface of a heavy liquid, while the latter sinks to the bottom. The effect of particle size and cooling rate on the Si yield and separation efficiency of the Si phase was investigated. The floated Si particles were further purified by removing the physically adherent Fe-Si phase, using an acid leaching method. Analysis of the produced silicon indicates that several impurity elements including P and B can be efficiently removed using this simple and low-cost technique.

Metallurgical Grade Silicon

Solar Grade Silicon

Solvent Refining

Heavy Medium

Physical Separation

Gettering

0794

Electrolytic Reduction of SiO₂ at Liquid Zn Cathode in Molten Salts and Precipitation of Si from Liquid Si-Zn Alloy / 溶融塩中における液体Zn陰極上でのSiO₂の電解還元および液体Si-Zn合金からのSi析出

Ma, Yuanjia

23 March 2022

京都大学 / 新制・課程博士 / 博士(エネルギー科学) / 甲第24000号 / エネ博第436号 / 新制||エネ||82(附属図書館) / 京都大学大学院エネルギー科学研究科エネルギー基礎科学専攻 / (主査)教授 野平 俊之, 教授 萩原 理加, 教授 佐川 尚 / 学位規則第4条第1項該当 / Doctor of Energy Science / Kyoto University / DFAM

Silicon

Electrochemical reduction of silica

Molten chloride salt

Liquid electrode

Solvent refining

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