TH25690B - FCC process in combination with crystalline microporous oxide catalyst With increased Lewis acidity - Google Patents

Abstract

DC60 (05/02/51) Catalyst components, catalysts And processes for making components And the catalysts revealed here are also disclosed here, namely Catalytic cracking process in fluid state For changing substances Feed the petroleum to the lower boiling product. Touched Catalyst feeder The catalyst components are Oxide-type catalyst The crystalline microporous as a compound for promoting dehydrogenation and increasing acidity Lewis was effectively added, the catalyst component can be incorporated into the anionic oxide matrix. Tree And used as a catalyst that should be used, compounds for promoting dehydrogenation and increasing acidity. Lewis has been effectively added to the section. Non-outline Of crystalline microporous oxides Catalyst, catalyst And processes for making components And the catalysts revealed here are also disclosed here, namely Catalytic cracking process in fluid state For changing substances Feed the petroleum to the lower boiling product. Touched Catalyst feeder The catalyst components are Oxide-type catalyst The crystalline microporous as an ingredient for the promotion of dehydrogenation and the addition of Lewis acidity that has been added effectively, this catalyst component can be incorporated into the matrix. That is an inorganic oxide And used as a catalyst that should be used, compounds for promoting dehydrogenation and increasing acidity. Lewis has been effectively added to the section. Non-outline Of crystalline microporous oxides

Claims (3)

1. The catalytic cracking process in the fluid state. These include: exposure to feed substances at the dissolution state using a catalyst. In the state of fluid and accelerator The newly prepared reaction It includes: (i) matrix substance (ii) crystalline microporous oxide. Which is combined with Such matrix, by crystalline microporous oxide It consists of non-skeletal parts and which are the cell size. In which the non-structured part will be assembled Combined with metal compounds, promoters, which combine to It is not the only crystalline microsphorus-type oxide, in which the promoter metal compounds are aluminum compounds and do not increase the cell size. 2. The process of claim 1 in which the microporous oxide is zeolite. 3. The process of claim 2 in which the microporous oxide is considered as the zeolite. The zeolite X and Y. 4. Process of claim 3 in which the sealed microporous oxide is the zeolite Y, whose cell size is equal to or greater than 24.30 A ํ 5. Process of claim 3 in which the sealed microporous oxide is zeolite Y, whose cell size is equal to or greater than 24.40 A ํ 6. Process according to claim 1, where micro oxides are selected. Crystal porous These groups include zeolite, tectosilicate, tetrahydral aluminophosphate and tetrahydral silicoaluminophosphate. 7. Process of claim. Where the micro oxides The crystalline porous is the zeolite. And which metal compounds transmit This supplement is aluminum oxide. 8. Catalytic cracking process in the fluid state, which includes: exposure to feed substances at the catalytic cracking state. In the state of fluid and accelerator The newly prepared reaction These include: (i) Matrix material (ii) Zeolite Y which integrates into the matrix substance, where the zeolite Y is composed of The non-skeletal portion and cell size were greater than approximately 24.30 A. As such, the scheme is composed of aluminum oxide which is incorporated into the non-skeletal part. Only of sealed microporous oxides, in which aluminum Oxides increased Lewis acidity without a significant increase in the cell size of zeolites. 9. catalytic cracking process in the fluid state, which included: Catalytic cracking In the state of fluid and accelerator The newly prepared reaction It includes: (i) matrix substance (ii) crystalline microporous oxide. Which is combined with Such matrix, by crystalline microporous oxide It consists of the non-skeletal part and which is the cell size, where the non-skeletal part is composed. Combined with promoter metal compounds which have the ability to increase Lewis acidity. Which was added to the non- Only crystalline micro-phosphorus oxide schemes, in which the reinforcing metal compounds are Aluminum compound And did not increase the unit size Crystalline microporous oxide cell Significantly 1 0. Process according to claim 9, in which the oxide type was selected. Crystalline microporous Such from the moo Which contains zeolite, tectochilicate, tetrahydral, aluminophosphate and tetrahydalicilicoaluminophosphate 1. Process according to claim 9 in which micro oxides The crystalline portions are zeolites and metal compounds. The promoter is aluminum oxide 1. 2. Process according to claim 11, in which the zeolite is a zeolite Y, whose cell size is equal to or greater than 24.30 A ํ 1. 3. Process of claim 11, in which the zeolite is the zeolite Y, whose cell size is equal to or greater than 24.40 A