Reactive distillation method and equipment for preparing silane through direct disproportionation of trichlorosilane

A technology of trichlorosilane and disproportionation reaction, which is applied in halogenated silanes, halogenated silicon compounds, chemical industry, etc., can solve the problems of no process innovation, large energy consumption, lengthy process, etc., to avoid material separation, cyclic reaction, control Operating costs and obvious advantages

Active Publication Date: 2015-07-22
黄国强
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AI Technical Summary

Problems solved by technology

The process of preparing high-purity silane by chlorosilane disproportionation was first proposed by UCC. In its patent US4340574, it proposed a technology to prepare silane using trichlorosilane as a raw material and using a fixed bed through multi-step disproportionation reactions. Each stage of disproportionation The reaction needs to be equipped with a corresponding rectification and purification process. The process is long and energy-consuming. Many domestic Jinggong Technology and other companies have applied for multiple patents around this fixed-bed multi-step disproportionation technology.
In addition, many researchers have improved the details of the above process, but there is no essential process innovation
[0005] There are certain defects in the existing foreign chlorosilane disproportionation technology to prepare silane, which is mainly reflected in the fact that the multi-step disproportionation process using fixed-bed rectification sequence requires at least two fixed-bed reactors and three rectification towers, the equipment is complex, and the process It is tedious, and due to the limitation of the low conversion rate of the multi-step disproportionation reaction, a large amount of materials are required to be separated and circulated for reaction. Repeated component separation consumes a lot of energy and high energy consumption

Method used

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  • Reactive distillation method and equipment for preparing silane through direct disproportionation of trichlorosilane

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0035] Accounting and explanation are made based on the production of 10t / y high-purity silane on a pilot scale.

[0036]The 25.4kg / hTCS raw material is pumped into the middle part of the trichlorosilane partition rectification column (1), and the upper part of the tower is filled with 3m high-efficiency structured packing as a public rectification section for separating light impurities; the lower part is filled with 3m high-efficiency structured packing As a common stripping section, it is used to separate heavy impurities; the middle part is divided by a partition with a height of 10m, and each side is filled with 9m high-efficiency structured packing for feed pre-separation and product purification side extraction respectively. The diameter of the trichlorosilane partition rectification column (1) is 150mm. The operating pressure is controlled at 0.6Mpa, the temperature at the top of the tower is 105°C, and the temperature at the bottom of the tower is 115°C. The top of th...

example 2

[0041] Accounting explanation is made based on the industrial production scale of 10,000t / y high-purity silane output.

[0042] The 24.4t / hTCS raw material is pumped into the middle part of the trichlorosilane partition rectification column (1), and the upper part of the tower is filled with 5m high-efficiency structured packing as a common rectification section for separating light impurities; the lower part is filled with 5m high-efficiency structured packing As a common stripping section, it is used to separate heavy impurities; the middle part is divided by a partition with a height of 20m, and each side is filled with 15m high-efficiency structured packing for feed pre-separation and product purification side extraction respectively. The diameter of the trichlorosilane partition rectification column (1) is 4.2m. The operating pressure is controlled at 0.1Mpa, the temperature at the top of the tower is 45°C, and the temperature at the bottom of the tower is 47°C. The top ...

example 3

[0047] The purity of the refined trichlorosilane as a raw material is above 9N, and the calculation and explanation is performed on the basis of an industrial production scale of 10,000t / y high-purity silane output.

[0048] The 23.4t / h refined TCS enters the disproportionation reaction rectification tower (2), and the middle part of the tower is filled with four-stage catalysts with a total structure of 16m. The basic anion exchange resin is filled in corrosion-resistant cloth bags, and the wire mesh corrugated packing is spaced into rolls. , to play the role of reactive distillation, the upper part is filled with 3m high-efficiency structured packing as the rectification section to recover unreacted chlorosilane, and the lower part is filled with 3m high-efficiency structured packing as the stripping section to initially separate TCS and STC. The diameter of the disproportionation reaction distillation tower (2) is 3.4m. The operating pressure is controlled at 0.2Mpa, the te...

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Abstract

The invention relates to a reactive distillation method and equipment for preparing silane through direct disproportionation of trichlorosilane. The reactive distillation method comprises the following steps of: introducing refined trichlorosilane with the purity up to over 9N to a one-step disproportionation reaction distillation tower to prepare the silane; extracting a reaction product from the top of the disproportionation reaction distillation tower in a gas phase way, entering a silane tower by utilizing differential pressure, obtaining a chlorosilane mixture at the bottom of the tower, and entering a silicon tetrachloride tower; obtaining a high-purity liquid-phase silane product at the top of the silane tower, obtaining unreacted chlorosilane at the bottom of the tower, and returning the unreacted chlorosilane to the disproportionation reaction distillation tower; and obtaining unreacted chlorosilane at the top of the silicon tetrachloride tower, returning the unreacted chlorosilane to the disproportionation reaction distillation tower, and obtaining a silicon tetrachloride product at the bottom of the tower. Light and heavy impurities in the refined trichlorosilane raw material with the purity lower than 9N are removed after the trichlorosilane passes through a partition plate rectification tower so as to obtain trichlorosilane with the purity up to over 9N. The one-step disproportionation reaction is realized in one reaction distillation tower, the equipment is simplified, meanwhile, a great number of circular reactions for material separation are avoided, the processes are shortened, the energy is saved, and the consumption is reduced. The purity of a silane product is higher.

Description

technical field [0001] The present invention relates to a method for preparing high-purity silane, in particular to a method for preparing high-purity silane by directly using trichlorosilane as a raw material and utilizing reactive distillation technology to purify through clapboard rectification or direct disproportionation reaction rectification and equipment. Background technique [0002] Silane, English name: silane, molecular formula is SiH 4 . As an important silicon source material, silane is widely used in semiconductor microelectronic IC, photovoltaic solar cell PV, liquid crystal display LCD and other industries. [0003] At present, there are three main production methods of silane: sodium aluminum fluoride method, silicon-magnesium alloy method and chlorosilane disproportionation method. Among them, the sodium aluminum fluoride method uses sodium aluminum hydride and silicon tetrafluoride as raw materials to react and synthesize silane gas. After subsequent a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C01B33/107
CPCY02P20/10
Inventor 黄国强王国锋王红星陈锦溢
Owner 黄国强
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