Patent ID: 8053618

Claim:
A hydrocarbon conversion process is selected from the group consisting of alkylation, trans-alkylation, isomerization, olefin dimerization, olefin oligomerization, and dewaxing comprising contacting a hydrocarbon stream with a UZM-35HS composition catalyst at hydrocarbon conversion conditions to give a converted product, the UZM-35HS composition catalyst comprising a MFI zeolite, an ERI zeolite, and a MSE zeolite, wherein the UZM-35HS zeolite has a three-dimensional framework of at least AlO 2 and SiO 2 tetrahedral units and an empirical composition on an anhydrous basis expressed by an empirical formula of: M1 a n+ Al (1-x) E x Si y′ O z′ where M1 is 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, “a” is the mole ratio of M1 to (Al+E) and varies from about 0.05 to about 50, “n” is the weighted average valence of M1 and has a value of about +1 to about +3, E is an element selected from the group consisting of gallium, iron, boron, and mixtures thereof, “x” is the mole fraction of E and varies from 0 to 1.0, y′ is the mole ratio of Si to (Al+E) and varies from greater than about 4 to virtually pure silica and z′ is the mole ratio of O to (Al+E) and has a value determined by the equation: z ′=( a·n+ 3+4· y ′)/2 and is characterized in that it has the x-ray diffraction pattern having at least the d-spacings and intensities set forth in Table A: TABLE A 2θ d (Å) I/Io % 6.48-6.51 13.32-13.58 m 6.78-6.83 12.91-13.02 m-s 7.79-7.96 11.09-11.32 m 8.05-8.07 10.93-10.96 m 8.71-8.75 10.08-10.13 m 9.61-9.65 9.15-9.18 m-s 10.75-10.79 8.18-8.21 w 13.61-13.65 6.47-6.49 w 14.74-14.79 5.98-6 w 15.56-15.59 5.67-5.69 w 15.86-15.86 5.58-5.58 w 19.46-19.5 4.54-4.55 m 19.89-19.92 4.45-4.45 m 20.48-20.51 4.32-4.33 m 20.94-20.96 4.23-4.23 m 21.61-21.64 4.1-4.1 vs 21.79-21.81 4.07-4.07 s 22.39-22.45 3.95-3.96 m 22.93-22.98 3.86-3.87 s-vs 23.29-23.31 3.81-3.81 m 23.5-23.5 3.78-3.78 m 23.78-23.86 3.72-3.73 m 24.39-24.41 3.64-3.64 w 24.82-24.82 3.58-3.58 w 25.76-25.79 3.45-3.45 w-m 26.09-26.12 3.4-3.41 m 26.74-26.81 3.32-3.33 m 27.14-27.14 3.28-3.28 m 27.42-27.46 3.24-3.249 m 27.69-27.69 3.21-3.21 m 28.02-28.06 3.17-3.18 m 29.1-29.15 3.06-3.06 m 29.54-29.61 3.01-3.02 w 29.75-29.86 2.98-2.99 w 30.12-30.14 2.96-2.96 m 30.73-30.79 2.9-2.9 m 31.26-31.27 2.85-2.85 w 31.47-31.47 2.83-2.83 w 33.19-33.25 2.69-2.69 w 34.34-34.48 2.59-2.6 w 34.76-34.76 2.57-2.57 w 35.18-35.2 2.54-2.54 w 35.57-35.59 2.51-2.52 w 36.02-36.04 2.48-2.49 w 41.65-41.71 2.16-2.16 w 44.57-44.61 2.02-2.03 w 47.48-47.58 1.9-1.91 w 49.53-49.59 1.83-1.83 w and is thermally stable up to a temperature of at least 400° C.