Mesoporous composite of molecular sieves for hydrocracking of heavy crude oils and residues

What is claimed is: 1. A catalyst for hydrocracking of heavy crude oils and residues to increase the production of intermediate distillates comprising a catalyst support obtained from boehmite, zeolite Y, and SBA-15 in a molar ratio of 60-85:5-15:10-35, respectively, and where said catalyst has a cylindrical shape with a diameter of 1.59 mm and a length of 2-7 mm and includes 3-15 wt % of a Group VIB metal comprising molybdenum as molybdenum oxide or molybdenum sulfide and 1-5 wt % of a Group VIII metal comprising nickel as nickel oxide or nickel sulfide, said catalyst having a specific surface area of 150-300 m 2 /g, an average pore diameter of 6.0 to 15.0 nm, a pore volume of 0.2 to 0.7 cm 3 /g, and a pore distribution of 20% of pores having a diameter of up to 5 nm, 70 to 85% of pores having a diameter of 5 to 50 nm, and less than 5% of pores having a diameter greater than 50 nm, and a total acidity at 100° C. equivalent to 180 to 360 micromoles of pyridine per gram of catalyst. 2. The catalyst of claim 1 , wherein the support is prepared by mechanical blending of a boehmite, zeolite and SBA-15, which is peptized with nitric acid, extruded, and calcined. 3. The catalyst of claim 2 , wherein the support is impregnated with a solution of ammonium heptamolybdate and nickel nitrate to obtain a Mo and Ni impregnated catalyst. 4. The catalyst of claim 1 , wherein said Mo and said Ni are present in a molar ratio of Mo/Ni+Mo=0.3. 5. A catalyst for hydrocracking heavy crude oils and residues to increase production of intermediate distillates, wherein said catalyst comprises a catalyst support obtained from boehmite, zeolite Y, and SBA-15 in a molar ratio of 60-85:5-15;10-35, Mo and Ni, and is prepared by a method of preparing a support by combining boehmite, zeolite Y, and SBA-15 in amounts of 60-85 wt %, 5-15 wt % and 10-35 wt %, respectively, peptizing the resulting mixture, drying the mixture and calcining to obtain the support, and impregnating said support with a solution of ammonium heptamolybdate and nickel nitrate, drying the impregnated support, and calcining to obtain said catalyst containing Mo and Ni, wherein said catalyst comprises 3-15 wt % of molybdenum as molybdenum oxide or molybdenum sulfide and 1-5 wt % of nickel as nickel oxide or nickel sulfide, said catalyst having a specific surface area of 150-300 m 2 /g, an average pore diameter of 6.0 to 15.0 nm and a pore volume of 0.2 to 0.7 cm 3 /g, and a pore distribution of 20% of a pore volume of pores of 0 to 5 nm, 70 to 85% of its pore volume of pores of 5 to 50 nm and less than 5% of said pore volume in pores with diameter greater than 50 nm, and a total acidity at 100° C., equivalent to 180 to 360 micromoles of pyridine per gram of catalyst. 6. The catalyst of claim 5 , wherein said catalyst has 74-85% of the pores with a diameter in the range of 5-50 nm. 7. The catalyst of claim 1 , wherein said catalyst has a pore diameter of 6-12 nm. 8. The catalyst of claim 1 , wherein said catalyst comprised 9-12 wt % molybdenum and 2.8-4.4 wt % nickel. 9. The catalyst of claim 8 , wherein said catalyst has surface area of 220-235 m 2 /g. 10. The catalyst of claim 9 , wherein said catalyst has a pore volume of 0.3-0.6 cm3/g, and average pore diameter of 6.6-9.2 nm, and a pore distribution of <5 nm in an amount of 13.6-23.3 vol %, 5-50 nm in an amount of 75.6-84.8 vol %, and >50 nm in an amount of 1.3-3.0 vol %. 11. The catalyst of claim 1 , wherein said catalyst has a molybdenum concentration of 10 wt % and a nickel concentration of 2.6 wt %. 12. The catalyst of claim 1 , wherein said catalyst comprised 74-85% of pores in a range of 5-50 nm.