TH37652B - Polypropylene production - Google Patents

Abstract

DC60 Method for the manufacture of polypropylene from olefin feedstocks containing one or more C4 olefins. Type or more, a process consisting of placing an olefin feeder material in contact with an MF1 catalyst with a silicon/aluminum atomic ratio of at least approximately 180 to produce an effluent current. containing polypropylene The yield of polypropylene on an olefin basis is from 30 to 50 % depending on the olefin content of the feed material. C4 or more Type or more, a process consisting of placing an olefin feeder material in contact with an MF1 catalyst with a silicon/aluminum atomic ratio of at least approximately 180 to produce an effluent current. containing polypropylene The yield of polypropylene on an olefin basis is from 30 to 50 % depending on the olefin content of the feed material.

Claims (8)

Disclaimers (all) that will not appear on the advertisement page: 1.Process for the production of polypropylene from olefin feed materials Containing at least one or more C4 olefins This includes: (a) the presence of a crystalline silicate catalyst with an MFI structure and a containing aluminum and silicon in the catalyst structure. To provide a silicon / aluminum atomic ratio (b), the catalyst was introduced into the pre-conditioning process. By heating Catalysts in steam and D-aluminate catalysts, with catalyst conditioning with Complexes for aluminum To remove aluminum from the catalyst structure and to provide the catalyst with a ratio of silicon / aluminum atoms. That increases within the range of 180 to 1000; And (c) exposure to preconditioned catalysts to olefin feed materials containing one or more C4 olefins. To produce an outflow containing polypropylene, the resulting polypropylene on an olefin basis is from 30 to 50% depending on the olefin content of the feed material. 2. Treatment according to claim 1, in which at least 95% of any C3 compound by weight in the outflow stream is polypropylene. 3. Process according to claim 1 in which the feed material comes into contact with the catalyst at an inlet temperature from 500 to 600 ํ. 4. Process according to claim 1, which passes the feed material over the catalyst at LHSV from 10 to 30 cm-1. 5. Process according to claim 1, in which the catalyst of the MFI structure is silicelite. 6. Process according to claim 1, in which the catalyst of the MFI structure is ZSM-5. 7.Processes for the production of polypropylene from olefin feed materials Containing at least one or more C4 olefins This includes: (a) the presence of a crystalline silicate catalyst with an MFI structure and a containing aluminum and silicon in the catalyst structure. To provide a silicon / aluminum atomic ratio (b), the catalyst was introduced into the pre-conditioning process. By heating Catalyst in steam For Dont Tetra Hedral Aluminum in the structure of the catalyst And formed the amorphous form Alumina in the catalyst porosity (c), then d-aluminate catalyst is treated by pretreatment of the catalyst with reagent To be a complex for aluminum To get rid of amorphous Aluminum leaves the structure of Catalyst And the provision of catalysts with increased silicon / aluminum atomic ratios within the range of 180 to 1000: and (d) exposure to the preconditioned catalysts with olefin feed materials. Containing at least one or more C4 olefins To produce an outflow containing polypropylene, the resulting polypropylene on an olefin basis is from 30 to 50% depending on the olefin content of the feed material. 8. The process of claim 7 in which the catalyst is silicelite and is heated in steam. To keep the temperature within the range 425 ํ - 870 ํ.