TH50502B - Process for the preparation of propylene oxide - Google Patents

Abstract

DC60 Method for the preparation of propylene oxide, where (i) propene is reacted with hydrogen peroxide with methanol in it to form propylene oxide, forming a mixture (Gi ) contains propylene oxide, methanol, water and unreacted hydrogen peroxide, (ii) mixture (Gii) consisting of methanol, water and hydrogen peroxide. Oxite is separated from the mixture (Gi), to form a mixture (Ga) containing propylene oxide, and (iii) water is separated from the mixture (Gii), forming a mixture (Giii). ) containing methanol and methyl formate, a method for the preparation of propylene oxide, in which (i) propene is reacted with hydrogen peroxide in the presence of methanol. Noll To make propylene oxide, make a mixture (Gi) containing propylene oxide, methanol, water and unreacted hydrogen peroxide. (ii) Mixture (Gii) containing meth. Thanol, water and hydrogen peroxide are separated from the mixture (Gi), forming a mixture (Ga), containing propylene oxide, and (iii) water is separated from the mixture (Gii). ), obtained as a mixture (Giii) containing methanol and methyl-formate. Patented drug.

Claims (9)

1. A process for the preparation of propylene oxide, where (i) propene is reacted with hydrogen peroxite in the presence of methanol. To make the propylene oxide, the compound (Gi) contains the propylene oxide, methanol, water and unreactive hydrogen peroxide (ii) the methan-containing mixture (Gii). Thanol, water and hydrogen peroxite were separated from the mix (Gi), formed as a mixture (Ga), containing propylene oxide, and (iii) water separated from the mix (Gii). ), Resulting in a mixture (Giii) containing methanol and methyl-formate. 2. The process according to claim 1, where propylene oxide is prepared using a catalyst-zeolite, preferably a titanium silicalite catalyst and, in particular, Especially is the titanium silicalite catalyst with a TS-1 structure. 3. Process according to claim 1 or 2, where the water is separated It was removed by distillation in (iii), where (W) the mixture (Gw) comprising most of the methanol and methylformate was separated from the mix (Gii) at the top of the The first distillation column, (X) of the resulting mixture at the bottom of the first distillation column was Used as an input for the second distillation column, (y) of the (Gy) mixture containing methanol. And methyl formate Most of the time was obtained at the top. The end of the second distillation column, and (Z) of the mix (Gw) and (Gy) are combined to obtain the mixture (Giii). 4. Process according to any one of claim 1 to 3, where methanol is separated from methyl. Formate in the mixture (Giii), and the extracted methanol was returned to (i). 5. Process according to any one of claim 1 to 4, where the reaction in (i) is performed in one step. 6.The process according to claim 5, where the hydrogen change in (i) ranges from 85 to 99.99%. 7. The process according to one of the claims 1 to 6, where the mixture (Ga) contains methanol in addition to propylene oxide, where methanol is separated from ( Ga) and added to mixtures (Gii) or mixes (Giii) or mixes (Gii) and (Giii). 8. Process according to claim 7, where the separation of metha Nol was performed in columns containing at least 20 theoretical separation layers at a pressure range from 0.3 to 10 bar. 9. The process of any one of claims 1 to 8, where the mixture (Ga), in addition to the possible propylene oxide and methanol, also contains Propene, which is not reacted in (i), where propene is separated from the mixture (Ga).