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Dehydration method during production process of toluene diisocynate

A technology for toluene diisocyanate and production process, which is applied in the field of dehydration in the process of producing toluene diisocyanate by high-pressure phosgenation method, can solve the problems of insignificant economic benefit, increase production cost and the like, and achieve good dehydration effect, reduce corrosion, environmental protection friendly effect

Active Publication Date: 2014-04-16
QINGDAO UNIV OF SCI & TECH +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the prior art, in order to reduce this kind of corrosion and increase the operating rate, the phosgenation reaction tower, the hydrogen chloride rectification tower and the corresponding pipelines are made of expensive Hastelloy alloys, but this method greatly increases the production cost and the economic benefits are not obvious

Method used

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  • Dehydration method during production process of toluene diisocynate
  • Dehydration method during production process of toluene diisocynate

Examples

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Effect test

Embodiment 1

[0010] In this example, the flow of water at different locations is analyzed without dehydration. In a TDI device with an annual output of 60,000 tons / year, 100PPM of water contained in the raw material toluene diamine (flow rate of 0.592kg / h) causes toluene di The enrichment of water in the phosgenation reaction tower and the hydrogen chloride rectification tower in the isocyanate production system, the mixture stream 1 obtained from the cold phosgenation reaction stage I enters the phosgenation reaction tower A, and in the phosgenation reaction tower A Acid chloride is decomposed into toluene diisocyanate, amine salt hydrochloride is decomposed into hydrogen chloride and amine, and after phosgenation, it becomes the product TDI, and at the same time generates by-product hydrogen chloride, which contains a part of phosgene in stream 2 from phosgenation reaction tower A The top of the tower enters the hydrogen chloride rectification tower B, and the stream 3 refined hydrogen ch...

Embodiment 2

[0012] This example shows the flow of water at different positions after dehydration. In a TDI device with an annual output of 60,000 tons / year, the raw material toluene diamine contains 100PPM of water (flow rate is 0.592kg / h), resulting in In the enrichment of moisture in the phosgenation reaction tower and the hydrogen chloride rectification tower, the mixture stream 1 obtained from the cold phosgenation reaction stage I enters the phosgenation reaction tower A, and in the phosgenation reaction tower A, carbamoyl chloride is decomposed and converted into Toluene diisocyanate and amine salt hydrochloride are decomposed into hydrogen chloride and amine, and become the product TDI after phosgenation. At the same time, the by-product hydrogen chloride is generated. The stream 2 containing a part of phosgene in the by-product hydrogen chloride comes out from the top of the phosgenation reaction tower A and enters Hydrogen chloride rectification tower B is installed, stream 3 refi...

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Abstract

The invention belongs to the field of toluene diisocynate production technology and relates to a dehydration method during the production process of toluene diisocynate. Toluenediamine and phosgene have cold light gasification reaction to obtain a mixture flow of carbamyl chloride, amidogen hydrochloride and hydrogen chloride; the mixture flow flows into a phosgenation reaction tower; carbamyl chloride and amidogen hydrochloride react to produce toluene diisocynate and the by-product hydrogen chloride; at the bottom of a hydrogen chloride rectifying tower, the mixture flow of amidogen and hydrogen chloride is divided into two parts, most of the mixture flow returns to the top of the phosgenation reaction tower and serves as the backflow, and the rest of the mixture flow enters into a drain sump containing activated carbon as the catalyst; water and phosgene in the mixture flow react to produce hydrogen chloride and carbon dioxide to remove water in the mixture flow under the function of the activated carbon catalyst; the dehydrated mixture flow enters into the bottom of the phosgenation reaction tower for further rectification and is discharged from the bottom of the phosgenation reaction tower for next step. The dehydration technology is simple and environmentally friendly, the cost is low, and the dehydration effect is excellent.

Description

Technical field: [0001] The invention belongs to the technical field of toluene diisocyanate production, and relates to a process for removing trace water in the production process of toluene diisocyanate, in particular to a dehydration method in the process of producing toluene diisocyanate by high-pressure phosgenation. Background technique: [0002] Toluene diisocyanate (TDI) is an important isocyanate product, which is mainly used in the production of flexible polyurethane foam, polyurethane coating, adhesive, elastomer and polyurethane prepolymer. Most of the existing industrialized production of TDI is Phosgenation method, phosgenation method is divided into normal pressure method and high pressure method. In the high-pressure phosgenation method, toluenediamine and phosgene are first subjected to cold phosgenation reaction in a reactor in the presence of an inert solvent to generate carbamoyl chloride, amino hydrochloride and hydrogen chloride, and then the resulting ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C07C265/14C07C263/04C07C263/10
Inventor 毕荣山谭心舜郑世清韩传贵葛继军曾民成张波
Owner QINGDAO UNIV OF SCI & TECH
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