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Method for preparing diisobutylphosphine from liquid hydrogen phosphide

A technology of diisobutylphosphine and phosphine, which is applied in the field of preparation of diisobutylphosphine from liquid phosphine, can solve the problems of uneconomical synthesis and low yield, improve reaction safety, avoid separation and recovery, Avoid the effects of heavy use

Pending Publication Date: 2022-03-11
HUBEI XINGFA CHEM GRP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0009] The process of reacting phosphine with olefins to synthesize organophosphorus products was developed as early as the 1950s, but the source of phosphine has always been the key to this process, among which yellow phosphoric acid process and phosphorous acid pyrolysis process are the main ones Mainly, in addition, the by-product phosphine of the sodium hypophosphite process is another important source, but the by-product phosphine tail gas contains hydrogen and a small amount of nitrogen with a volume ratio of up to 60%, and the phosphine of this purity can only be produced in a low yield. and uneconomical synthesis of organophosphorus products, while the reaction pressure is as high as 9 ~ 10MPa

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] The synthesis of diisobutylphosphine comprises the following steps

[0028] (1) Addition reaction

[0029] In a 50L addition reactor, add 9.2kg of phosphine using a diaphragm metering pump, control the feed temperature at -70~-80°C, and control the feed pressure at 0.2~0.5MPa; turn on the stirring, and then use the diaphragm metering pump Add 15.6kg of isobutene, and the feed pressure is controlled at 0.5 ~ 0.8MPa; after the feed is completed, the temperature in the reactor is -30 ~ -35°C; after the feed of phosphine and isobutylene is completed, the temperature of the reactor is controlled by the heat transfer oil system At 82~85℃, the pressure is 4.4~4.6MPa; after the temperature and pressure are stabilized, add 3.0kg of triisobutylphosphine solution of azobisisobutyronitrile through the diaphragm metering pump, the concentration of the initiator solution is 4%, dropwise The time is 3 hours. After the initiator solution is added, continue the heat preservation reacti...

Embodiment 2

[0034] The synthesis of embodiment 2 diisobutylphosphine

[0035] (1) Addition reaction

[0036] In a 50L addition reactor, add 9.5kg of phosphine using a diaphragm metering pump, control the feed temperature at -70~-80°C, and control the feed pressure at 0.2~0.5MPa; turn on the stirring, and then use the diaphragm metering pump Add 15.2kg of isobutene, and the feed pressure is controlled at 0.5 ~ 0.8MPa; after the feed is completed, the temperature in the reactor is -35 ~ -40°C; after the feed of phosphine and isobutylene is completed, the temperature of the reactor is controlled by the heat transfer oil system At 64~67℃, the pressure is 3.5~3.8MPa; after the temperature and pressure temperature, add 2.8kg initiator solution through the diaphragm metering pump, the concentration of the initiator azobisisoheptanonitrile is 3%, and the solvent is monoisobutylphosphine Mixed solution with diisobutylphosphine (ratio: 8:2), the dripping time of the initiator solution is 2h, after...

Embodiment 3

[0041] The synthesis of embodiment 3 diisobutylphosphine

[0042] (1) Addition reaction

[0043] In a 50L addition reaction kettle, add 9.5kg of phosphine using a diaphragm metering pump, control the feed temperature at -60~-70°C, and control the feed pressure at 0.3~0.6MPa; start stirring, and then use the diaphragm metering pump Add 15.2kg of isobutene, and the feed pressure is controlled at 0.6 ~ 1.0MPa. After the feed is completed, the temperature in the reactor is -30 ~ -32°C; after the feed of phosphine and isobutylene is completed, the temperature of the reactor is controlled by the heat transfer oil system At 83~86℃, the pressure is 4.5~4.8MPa; after the temperature and pressure temperature, add 2.5kg of azobisisovaleronitrile monoisobutylphosphine solution through the diaphragm metering pump, the concentration of the initiator solution is 3.5%, drop The time is 2 hours. After the initiator solution is added, the heat preservation reaction is continued for 1 hour. Aft...

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Abstract

The invention relates to a method for preparing diisobutylphosphine from liquid phosphine, which comprises the following steps: adding low-temperature liquid phosphine and liquid isobutene into a reaction kettle in sequence, uniformly mixing, heating to a target reaction temperature, slowly dropwise adding an initiator solution into the reaction kettle through a diaphragm metering pump, and initiating free radical addition reaction; and after the reaction is finished, carrying out rectification separation on the obtained reaction product to obtain the target product diisobutylphosphine. The method not only improves the purity of the sodium hypophosphite byproduct phosphine as a raw material, but also creates conditions for low-pressure feeding of liquid phosphine and isobutene; purified liquid phosphine is used as a raw material, liquid-phase uniform mixing reaction of phosphine and isobutene is achieved, large-amount use of organic reaction solvents such as methylbenzene is avoided, and reaction efficiency is improved; meanwhile, compared with a hydrogen phosphide gas compression method, the reaction pressure of the system is reduced, and the reaction safety is improved. In addition, an addition reaction byproduct is selected as the initiator solvent, no new solvent substance is introduced into the system, and separation and recovery of the initiator solvent are avoided.

Description

technical field [0001] The invention relates to a method for preparing diisobutylphosphine from liquid phosphine as a by-product in the production process of sodium hypophosphite. Background technique [0002] Sodium hypophosphite is an important variety of inorganic phosphorus chemical products. A large amount of phosphine tail gas is inevitably produced in the production process, and about 20-25% of the raw material yellow phosphorus consumption is converted into phosphine. The main components of the by-product phosphine are (V / V%): PH 3 =35-45%, H 2 =50-60%, N 2 =5-10%, CO 2 =0.01-0.1%. At present, the treatment methods of sodium hypophosphite by-product phosphine mainly include: [0003] 1. Use phosphine tail gas as raw material to synthesize quaternary phosphonium salt series flame retardants and fungicides. For example, using phosphine tail gas directly as raw material, after washing with water or alkali, reacting with formaldehyde and sulfuric acid to obtain tet...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C07F9/50
CPCC07F9/5004C07F9/5059
Inventor 范佳利屈云路明清周勇姜海峰郑国伟吕杨黄胜超曹清章李红波
Owner HUBEI XINGFA CHEM GRP CO LTD
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