Ethylene glycol ether is an ethylene glycol monoether compound. The structure of ethylene glycol monoether compounds contains ether bonds, hydroxyl groups and different alkyl groups. It is water-soluble and can dissolve organic molecules, synthetic polymers and natural polymers. It is a versatile green solvent and is widely used. As an industrial solvent, it can also be used as antifreeze, surfactant, printed circuit board adhesive, skin care additive, etc. It has broad application prospects in industry.
Ethylene glycol etherPreparation
Dissolve 46.0gMg(NO3)2·6H2O and 13.1gCo(NO3)2·6H2O in 100ml distilled water, then add 1.4gLa(NO3)3·6H2O , obtain a salt solution, mix the obtained solution with 25% by weight of concentrated ammonia water in a co-current dropwise manner, adjust the pH of the mixed solution to 9, react at constant Disman pressure and 40°C for 1 hour, and then cool to room temperature. , then aged for 20 hours, followed by conventional suction filtration, washing, drying, and roasting at 500°C for 4 hours to obtain a block catalyst, which was crushed to 40-60 mesh to obtain the required catalyst, labeled GM1.
Place the prepared catalyst GM1 in a tubular membrane in a continuous membrane reactor, and purge nitrogen outside the membrane; under normal pressure conditions, the molar ratio A gas-phase ethoxylation reaction is carried out for 3:1 ethanol and ethylene oxide. The ethanol is first vaporized in a 90°C preheater. The temperature of the membrane reactor is maintained at 100°C, and the gas space velocity is 1.5×103ml·g-1 ·h-1, you can prepare ethylene glycol ether.
Ethylene glycol etherApplication
CN201610714512.3 discloses a preparation process of ethylene glycol ether acetate, using ethylene glycol ether and acetic acid as raw materials, and using a solid acid catalyst for fixed-bed Continuous esterification reaction, the esterification temperature is 70-150°C, the water generated in the esterification reaction is removed by azeotropic distillation; the esterification reaction product is rectified, and unreacted ethylene glycol ether and acetic acid are removed and recovered to obtain Ethylene glycol ether acetate. When preparing solid acid catalysts, using modified nanodiatomaceous earth can reduce the occurrence of side reactions and improve the purity of crude ethylene glycol ether acetate. The preparation process provided by the invention is simple, realizes the continuous production of ethylene glycol ether acetate, and has high production efficiency; it uses a solid acid catalyst to reduce the occurrence of side reactions and will not corrode reaction equipment.
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