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Preparation technology of tetrabutyl urea

A technology for the preparation of tetrabutyl urea, which is applied in the preparation of urea derivatives, the preparation of organic compounds, and organic chemistry, and can solve the problems of only 80%-85% yield of finished products, many by-products, and difficulty in industrialization. , to achieve the effect of cheap raw materials, good product quality and easy access to raw materials

Inactive Publication Date: 2017-05-24
QINGDAO SENMEIKE CHEM TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Phosgene method includes monophosgene method, diphosgene method, triphosgene method, etc.; diphosgene method and triphosgene method need to use solvent in the process of preparing tetrabutylurea, although monophosgene method is not applicable during reaction Solvent, but in the follow-up treatment, benzene or toluene needs to be used for extraction. According to related reports, the yield of finished product is only 80%-85%. Non-phosgene methods include carbon monoxide method, carbon dioxide method, acetanilide method, etc.; carbon monoxide method needs to use oxygen Or auxiliary reagents such as potassium iodide, reaction under pressurized condition, yield is low, and by-product is many, use dibutylamide lithium and di-n-butylamine and carbon monoxide reaction then be difficult to industrialization; Acetanilide method reacts with di-n-butylamine, Although less toxic, the product is an equal amount of tetrabutylurea and by-products
At present, there are basically no enterprises producing tetrabutylurea in China, and most of the market demand depends on foreign imports.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0016] (1), add di-n-butylamine, phosgene and 20% sodium hydroxide solution in a molar ratio of 2: 1: 2 in a reaction vessel;

[0017] (2), the acylation reaction temperature is 60°C, and the acylation reaction time is 5 hours, and the crude product of tetrabutylurea is obtained;

[0018] (3) After the crude tetrabutylurea was left to stand for 30 minutes, the mother liquid water in the lower layer was separated, and the crude tetrabutylurea was distilled at a vacuum degree of -0.092MPa and a kettle temperature of 200°C to obtain the final product of tetrabutylurea .

Embodiment 2

[0020] (1), add di-n-butylamine, phosgene and 20% sodium hydroxide solution in a molar ratio of 2: 1.05: 2.1 in the reaction vessel;

[0021] (2), the acylation reaction temperature is 70°C, and the acylation reaction time is 6 hours, and the crude product of tetrabutylurea is obtained;

[0022] (3) After the crude tetrabutylurea was left to stand for 30 minutes, the mother liquid water in the lower layer was separated, and the separated crude tetrabutylurea was distilled at a vacuum degree of -0.094MPa and a kettle temperature of 210°C to obtain the final product of tetrabutylurea .

Embodiment 3

[0024] (1), add di-n-butylamine, phosgene and 20% sodium hydroxide solution in a molar ratio of 2: 1.05: 2.1 in the reaction vessel;

[0025] (2), the acylation reaction temperature is 80°C, and the acylation reaction time is 8 hours, and the crude product of tetrabutylurea is obtained;

[0026] (3) After the crude tetrabutylurea was left to stand for 30 minutes, the mother liquid water in the lower layer was separated, and the separated crude tetrabutylurea was distilled at a vacuum degree of -0.096MPa and a kettle temperature of 220°C to obtain the final product of tetrabutylurea .

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Abstract

The invention provides a preparation technology of tetrabutyl urea synthetized by a phosgene method. The tetrabutyl urea is synthetized from dibutylamine and carbonyl chloride as main materials in an alkaline organic solvent. The technology comprises the following steps: (1) adding dibutylamine, carbonyl chloride and the organic solvent according to a ratio to a reaction container; (2) adjusting the temperature of an acylation reaction, and controlling the time of the acylation reaction so as to obtain a tetrabutyl urea crude product; and (3) enabling the tetrabutyl urea crude product to be subjected to standing, separation, distillation, and purification so as to obtain the finished product of the tetrabutyl urea. The preparation method disclosed by the invention is simple in operation steps, the raw materials are low in price and easy to obtain, products are high in quality, the reaction yield reaches 90% or above, and the purity reaches 99% or above.

Description

Technical field [0001] The invention relates to the field of organic chemistry, and specifically relates to a preparation process of organic compound tetrabutylurea. Background technique [0002] Tetrabutylurea (C 17 H 36 N 2 0), is a widely used organic synthesis intermediate. It can also be used as a solvent, extraction agent and catalyst in organic chemistry, especially as a solvent in the production process of hydrogen peroxide. The methods for synthesizing tetrabutylurea are generally divided into phosgene method and non-phosgene method. The phosgene method includes the monophosgene method, the diphosgene method, the triphosgene method, etc.; the diphosgene method and the triphosgene method require the use of solvents in the process of preparing tetrabutylurea, but the monophosgene method is not applicable during the reaction. Solvent, but in subsequent processing, benzene or toluene needs to be used for extraction. According to relevant reports, the yield of the fi...

Claims

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Application Information

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IPC IPC(8): C07C275/06C07C273/18
Inventor 李春梅
Owner QINGDAO SENMEIKE CHEM TECH CO LTD
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