Method for recovering and separating silicone and silicon carbide powder through foam flotation in silicon wafer cutting effluent

A silicon wafer cutting waste liquid and foam flotation technology, which is applied to silicon carbide, chemical instruments and methods, flotation, etc., can solve the problems of long time consumption and low separation efficiency

Inactive Publication Date: 2012-11-07
铁生年
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This method makes full use of the differences in physical properties of substances and achieves the purpose of preliminary separation, but the separation efficiency is low and time-consuming, and it is still difficult to achieve complete separation
[0009] Generally speaking, there are no industrial production application reports on the effective recovery and separation of silicon and silicon carbide powder from the waste liquid of silicon wafer cutting in the new energy silicon industry at home and abroad.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0023] The method for recovering and separating silicon and silicon carbide powder by froth flotation comprises the following steps:

[0024] (1) Add 0.35 mol / L nitric acid to the waste mortar, the ratio of solid content to nitric acid is 1:1 (g / mL), react at room temperature for 2 hours, and obtain a solid after centrifugation;

[0025] (2) Wash the solid matter obtained with distilled water to neutrality, and centrifugally dry it for subsequent use;

[0026] (3) Formulated with 200ppm dodecyltrimethylammonium chloride, 10ppm turpentine, 30% distilled water, 20% paraffin, 20% beeswax, 0.3% stearic acid, 0.05% ascorbic acid, 0.05% vitamin E, and the rest For the suspension of solid matter, adjust the pH value of the liquid to 3 with nitric acid and then stir;

[0027] (4) Add the suspension to the flotation machine, and while stirring at a speed of 1544 rpm, pass 15m from the lower part 3 / h of air for flotation test;

[0028] (5) Collect the floating foam and sediment p...

Embodiment 2

[0030] The froth flotation method separates silicon and silicon carbide powders, including the following steps:

[0031] (1) Add 0.50 mol / L sulfuric acid to the waste mortar, the ratio of solid content to sulfuric acid is 1:3 (g / mL), react at room temperature for 4 hours, and obtain a solid after centrifugation;

[0032] (2) washing the obtained solids with distilled water to neutrality, and centrifugally drying for subsequent use;

[0033] (3) Formulated with 100ppm octyltrimethylammonium chloride, 20ppm turpentine, 40% distilled water, 15% paraffin, 15% beeswax, 0.5% stearic acid, 0.08% ascorbic acid, 0.06% vitamin E, and the rest is solid The suspension of the substance is stirred after adjusting the liquid pH value to 3 with nitric acid;

[0034] (4) Add the suspension to the flotation machine, and while stirring at a speed of 1710 rpm, pass 25m from the lower part 3 / h of air for flotation;

[0035] (5) Collect the floating foam and sediment particles, filter the flo...

Embodiment 3

[0037] The froth flotation method separates silicon and silicon carbide powders, including the following steps:

[0038] (1) Add 1.00 mol / L hydrochloric acid to the waste mortar, the ratio of solid content to hydrochloric acid is 1:5 (g / mL), react at room temperature for 7 hours, and obtain solid content after centrifugation;

[0039] (2) washing the obtained solids with distilled water to neutrality, and centrifugally drying for subsequent use;

[0040] (3) Formulated with 50ppm aminohydroxysiloxane, 20ppm No. 2 oil, 50% distilled water, 10% paraffin, 10% beeswax, 0.9% stearic acid, 1% ascorbic acid, 1% vitamin E, and the rest is solid The suspension of the suspension is stirred with ammonia water to adjust the pH value to be 8;

[0041] (4) Pour the suspension into the polyvinyl chloride flotation machine, and while stirring at a speed of 1900 rpm, pass 35m from the lower part 3 / h of air for flotation;

[0042] (5) Collect floating foam and sediment particles, filte...

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PUM

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Abstract

The invention relates to the technology for recovering and recycling solid in silicon wafer cutting effluent in the new energy silicone industry, in particular to a method for recovering and separating silicone and silicon carbide powder through foam flotation in the silicon wafer cutting effluent. The method includes the following steps: performing solid-liquid separation on the cutting effluent by using a separating agent to separate the solid and the liquid; washing the solid into neutral through distilled water, and centrifugally drying the solid for spare; mixing the prepared solid and a flotation agent to form turbid liquid, regulating the pH value to a required value and then stirring; adding the turbid liquid into a flotation machine, stirring with certain rotating speed, and simultaneously feeding gas with the required flow from the lower portion for a flotation test; and filtering to recover foam and precipitate particles, and washing and drying to obtain the silicone and silicon carbide powder. By means of the method, the silicone and silicon carbide powder in the cutting effluent produced by the silicon wafer cutting technology can be effectively recovered and separated, silicone wafer processing cost is remarkably reduced, recycling of resources is achieved, and the method makes contributions for environment protection and is the practical technology in solving the problem of shortage in resources.

Description

technical field [0001] The invention relates to a method for recovering silicon and silicon carbide powder from cutting waste liquid in the new energy silicon industry by foam flotation, in particular to separating silicon and silicon carbide powder by foam flotation. Background technique [0002] As an inexhaustible clean energy source, the development and utilization of solar energy is attracting great attention of human beings. Most solar cells use non-toxic crystalline silicon, which is characterized by high photoelectric conversion efficiency, long life and good stability. At present, the multi-wire saw cutting method is mostly used to produce large and thin silicon wafers for solar cells. A fluid mixed cutting fluid mortar is used in multi-wire cutting, and its components are silicon carbide and polyethylene glycol. During the cutting process, the high-speed reciprocating cutting line drives the mortar to the cutting area, so that the abrasive particles in the mortar...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01B33/037C01B31/36B03D1/02C01B32/956
Inventor 铁生年侯思懿汪长安
Owner 铁生年
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