Silicon recovery from cutting slurry by phase transfer separation

•A low-cost and non-toxic method for silicon recycle from cutting kerf-loss slurry waste.•A phase-transfer separation using diesel based on the hydrophobicity difference between Si and SiC.•Particle-stabilized emulsion zone between the oil and water phases was crucial to the separation efficiency. T...

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Published inSeparation and purification technology Vol. 133; pp. 1 - 7
Main Authors Hsu, H.P., Huang, W.P., Yang, C.F., Lan, C.W.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 08.09.2014
Subjects
Emulsion
Hydrophobicity
Kerf-loss
Phase-transfer separation
Silicon
Silicon carbide
Silicon
Silicon carbide
Emulsion
Hydrophobicity
Kerf-loss
Phase-transfer separation
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Abstract •A low-cost and non-toxic method for silicon recycle from cutting kerf-loss slurry waste.•A phase-transfer separation using diesel based on the hydrophobicity difference between Si and SiC.•Particle-stabilized emulsion zone between the oil and water phases was crucial to the separation efficiency. The cost of silicon feedstock is one of the most important factors for photovoltaic (PV) energy to reach grid parity. However, about 40% of high-purity silicon has been wasted as kerf loss during slicing. In the past decade, the recycle of silicon from the kerf-loss slurry waste has attracted much attention, but the progress is very slow. One of the technological challenges is the separation of SiC and Si particles. In this paper, a phase-transfer method using diesel based on the hydrophobicity difference between Si and SiC was proposed. SiC particles were enriched in the emulsion phase due to their more hydrophobic nature than Si. Si powder with a purity of 95wt% could be obtained, and the yield was about 80%. The factors, such as emulsification, affecting the separation efficiency were further discussed.
AbstractList •A low-cost and non-toxic method for silicon recycle from cutting kerf-loss slurry waste.•A phase-transfer separation using diesel based on the hydrophobicity difference between Si and SiC.•Particle-stabilized emulsion zone between the oil and water phases was crucial to the separation efficiency. The cost of silicon feedstock is one of the most important factors for photovoltaic (PV) energy to reach grid parity. However, about 40% of high-purity silicon has been wasted as kerf loss during slicing. In the past decade, the recycle of silicon from the kerf-loss slurry waste has attracted much attention, but the progress is very slow. One of the technological challenges is the separation of SiC and Si particles. In this paper, a phase-transfer method using diesel based on the hydrophobicity difference between Si and SiC was proposed. SiC particles were enriched in the emulsion phase due to their more hydrophobic nature than Si. Si powder with a purity of 95wt% could be obtained, and the yield was about 80%. The factors, such as emulsification, affecting the separation efficiency were further discussed.
Author Yang, C.F.
Lan, C.W.
Huang, W.P.
Hsu, H.P.
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Keywords Silicon
Silicon carbide
Emulsion
Hydrophobicity
Kerf-loss
Phase-transfer separation
Language English
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Snippet •A low-cost and non-toxic method for silicon recycle from cutting kerf-loss slurry waste.•A phase-transfer separation using diesel based on the hydrophobicity...
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SubjectTerms Emulsion
Hydrophobicity
Kerf-loss
Phase-transfer separation
Silicon
Silicon carbide
Title Silicon recovery from cutting slurry by phase transfer separation
URI https://dx.doi.org/10.1016/j.seppur.2014.06.037
Volume 133
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