RU2006140800A - UZM-8 AND UZM-8HS CRYSTALLINE ALUMINOSILICATE ZEOLITE COMPOSITIONS AND THE PROCESSES IN WHICH THESE COMPOSITIONS ARE USED - Google Patents

Claims (8)

1. A microporous crystalline zeolite having a layered lattice of at least tetrahedral AlO ₂ and SiO ₂ cells and a composition for a freshly synthesized form in an anhydrous state, expressed by the empirical formula: M _m ^{n +} R _f ^{p +} Al _1-x E _x Si _y O _z , where M denotes at least one exchangeable cation and is selected from the group consisting of alkali and alkaline earth metals; “M” represents the molar ratio of M to (Al + E) and varies from 0 to 2.0; R denotes at least one organosubstituted ammonium cation selected from the group consisting of quaternary ammonium cations, dichloromeric ammonium cations, protonated amines, protonated diamines, protonated alkanolamines and quaternized alkanolammonium cations; "R" represents the molar ratio of R to (Al + E) and has a value from 0.05 to 5.0; “N” represents the weighted average valency of M and has a value from 1 to 2; “P” represents the weighted average valency of R and has a value of from 1 to 2; E denotes an element selected from the group consisting of gallium, iron, boron, indium chromium and mixtures thereof; "X" represents the molar fraction of E and has a value from 0 to 0.50; “Y” refers to the molar ratio of Si to (Al + E) and varies from 6.5 to 35; and "z" denotes the molar ratio of O to (Al + E) and is determined by the equation: z = (mn + rp + 3 + 4y) / 2, and differs in that it has an x-ray in which there are at least d-distances and relative intensities indicated in table A below Table a 2-θ d (E) I / I _o % 6.40-6.90 13.80-12.80 w-s 6.95-7.42 12.70-11.90 m-s 8.33-9.11 10.60-9.70 w-vs 19.62-20.49 4.52-4.33 m-vs 21.93-22.84 4.05-3.89 m-vs 24.71-25.35 3.60-3.51 w-m 25.73-26.35 3.46-3.38 m-vs 2. The zeolite according to claim 1, where the zeolite is thermally stable to a temperature of 600 ° C. 3. The zeolite according to claim 1 or 2, where R is selected from the group consisting of diethyldimethylammonium, ethyltrimethylammonium, hexamethonium, and mixtures thereof. 4. The zeolite according to claim 1 or 2, where "m" is zero. 5. The zeolite according to claim 3, where "m" is zero. 6. A microporous crystalline zeolite having a three-dimensional lattice of at least tetrahedral AlO ₂ and SiO ₂ cells and an empirical composition for an anhydrous state, expressed in molar fractions of elements:

where M1 denotes at least one exchangeable cation selected from the group consisting of alkali, alkaline earth metals, rare earth metals, ammonium ion, hydrogen ion and mixtures thereof, and denotes a molar ratio of M1 to (Al + E) and varies from 0.05 to 5.0, E denotes an element selected from the group consisting of gallium, iron, boron, chromium, indium and mixtures thereof, x denotes the mole fraction of E and varies from 0 to 1.0, n denotes the weighted average valency M1 and has a value from +1 to +3, y 'denotes the molar ratio of Si to (Al + E) and is significant more than 6.5 and z '' denotes the molar ratio of O to (Al + E) and has a value that is determined by the equation: z '' = (an + 3 + 4y ') / 2, moreover, the zeolite is characterized in that it has an x-ray, which contains at least d-distances and relative intensities indicated in table B Table B 2-θ d (E) I / I _o % 6.90-7.40 12.80-11.94 w-vs 8.15-8.85 10.84-9.98 m-vs 14.10-14.70 6.28-6.02 w-vs 19.40-20.10 4,57-4,41 w-s 22.00-22.85 4.04-3.89 m-vs 24.65-25.40 3.61-3.50 w-m 25.70-26.50 3.46-3.36 w-vs 7. A hydrocarbon conversion process comprising contacting hydrocarbon vapors with a catalytic composite under hydrocarbon conversion conditions, whereby a converted product is obtained where the catalytic composite comprises a zeolite according to claim 1, 2, 3, 4, 5 or 6. 8. The method according to claim 7, where the hydrocarbon conversion process is selected from the group consisting of alkylation of aromatic compounds, xylene isomerization, cracking of naphtha, ring opening processes, transalkylation, isoparaffins alkylation and ethylbenzene isomerization.