Mild acidic catalyst for hydroprocessing of heavy crude oil and residue and its synthesis procedure

What we are claiming in this invention is: 1. A catalyst having moderate acidity and a large pore diameter for hydroprocessing of heavy crude oil and residua, said catalyst having a two-component support of (a) amorphous silica-alumina containing approximately 5 to 50 weight percent SiO 2 and having a Si/Al ratio of 0.2 to 1.25, the amorphous silica-alumina having a pore volume of 0.176 cc 3 /g or higher for pore diameters of more than 140 Å or (b) USY zeolite in a matrix of peptized boehmite and having a specific surface area of 140 to 200 m 2 /g, a total pore volume of 0.3 to 0.5 cm 3 /g and an average pore diameter of 4.0 to 13 nm, said catalyst comprising active metal components from group VIB and group VIII. 2. The catalyst of claim 1 , wherein the support consists of an amorphous silica-alumina containing approximately 5 to 50 weight percent SiO 2 and having a Si/Al ratio of 0.2 to 1.25, the amorphous silica-alumina having a pore volume of 0.176 cc 3 /g or higher for pore diameters of more than 140 Å. 3. The catalyst of claim 1 , wherein the support consists of zeolite in a matrix of different peptized boehmite. 4. The catalyst of claim 2 , wherein the amorphous silica-alumina has a pore volume of 0.176 to 0.396 cc 3 /g for pore diameters more than 140 Å. 5. A catalyst according to claim 3 , wherein the zeolite is a USY zeolite, and the metal components are Mo or W from Group VIB and Co or Ni from Group VIIIB. 6. A catalyst according to claim 2 , wherein said silica-alumina support is characterized by the textural properties: specific surface area (SSA) of 140 to 260 m 2 /g, total pore volume (PV) of 0.4 to 0.8 cm 3 /g, and average of pore diameter (APD) of 7.0 to 16.0. 7. A catalyst according to claim 2 , wherein the concentration of active metals is of 4-9 weight % of molybdenum and 1-3 weight % of nickel or cobalt. 8. The catalyst according to claim 2 , wherein said active metal components are Mo or W from Group VIB and Co or Ni from Group VIIIB. 9. The catalyst according to claim 8 , wherein said silica-alumina support is characterized by the textural properties: specific surface area (SSA) of 140 to 260 m 2 /g, total pore volume (PV) of 0.4 to 0.8 cm 3 /g, and average of pore diameter (APD) of 7.0 to 16.0. 10. A method for the preparation of a hydroprocessing catalyst which comprises: a) preparation of a zeolite-alumina support by a dry mixing step consisting of dry mixing zeolite with different boehmites to obtain a dry mixture consisting of zeolite and alumina; b) adding water and nitric acid to peptize said boehmites and form a homogeneous paste; c) extruding the homogeneous paste into extrudates having a cylindrical shape; d) drying the extrudates; e) calcining the dried extrudates; f) incorporating metallic components of group VIB and group VIIIB into the dried extrudates using the aqueous incipient wetness impregnation method; g) drying the impregnated extrudates; and h) calcining the catalyst. 11. The method according to claim 10 , wherein the support consists of a Y zeolite or a USY zeolite and alumina and said group VIB metallic component is molybdenum or tungsten and said group VIII metallic component is nickel or cobalt. 12. The method of claim 10 , wherein metallic components of group VIB and group VIIIB are incorporated into the dried extrudates by using nickel nitrate and ammonia meta-tungstate in the aqueous incipient wetness impregnation method. 13. A method for the preparation of a hydroprocessing catalyst for processing heavy crudes and residua, which comprises preparing a support consisting of SiO 2 —Al 2 O 3 by homogeneous precipitation of SiO 2 —Al 2 O 3 which comprises: a) mixing aqueous solutions of sodium silicate solution (2-5 molar SiO 2 ) and aluminum nitrate (2-5 molar Al 2 O 3 ) by vigorous stirring to form an acidified gel solution; b) adding an aluminum solution in the presence of a basic precipitant to the acidified solution to form a gel and increase pH above 3 for co-gelation of silica and alumina species at a constant pH of 4 to 8; c) adding a sufficient quantity of precipitant at the end of the co-gelation to obtain a final pH of the solution in the range of 8 to 9 and complete the reaction and form a solid co-gel mass; d) aging the solid co-gel mass at a temperature in the range of 60 to 80° C. to convert the co-gel mass into a sol; e) filtering the solid mass of silica-alumina (sol-gel) from the mother liquor; f) washing the solid mass with water to remove sodium ions from the co-gel; g) processing the sol using wet extrusion method to form extrudates; h) drying the extrudates; i) calcining the extrudates to form a support consisting of two-component silica-alumina; j) impregnation of the silica-alumina support with an active metal with the incipient wetness method using a group VIB metal in a first step and a group VIIIB in a second step to form an impregnated silica-alumina catalyst; k) drying the impregnated silica-alumina catalyst to form a dried impregnated silica-alumina catalyst; and 1) calcining the dried impregnated silica-alumina, wherein said support is an amorphous silica-alumina having approximately 5 to 50 weight percent SiO 2 and a Si/Al ratio of 0.2 to 1.25. 14. The method of claim 13 , wherein the co-gel is aged for approximately 15 hours; said extrudates are dried 120° C. and calcined at 550° C. for 5 hours; and said drying of said catalysts is conducted at room temperature, and then at 120° C. for 12 hours; and finally calcined 450° C. for 4 hours. 15. A method for the hydroprocessing of a heavy crude or residua feedstock, which comprises contacting said feedstock with a catalyst having moderate acidity having a two-component support consisting of (a) amorphous silica-alumina having approximately 5 to 50 weight percent SiO 2 and having a Si/Al ratio of 0.2 to 1.25, or (b) USY zeolite in a matrix of peptized boehmite and having a specific surface area of 140 to 200 m 2 /g, a total pore volume of 0.3 to 0.5 cm 3 /g and an average pore diameter of 4.0 to 13 nm, and comprising active metal components from group VIB and group VIII, which method comprises contacting the heavy crude or residua feedstock with the catalyst at a temperature of 320 to 450° C., a partial hydrogen pressure from 4 to 15 MPa, and a LHSV of 0.2 to 3 h −1 . 16. The method according to claim 15 , wherein the hydroprocessing of said feedstock results in hydrodemetallization of 25 to 60%, hydrodesulfurization of 20 to 70 weight %, hydrocracking of 20 to 40 weight %, and hydrodenitrogenation of 25 to 5 weight %. 17. A method for the preparation of a hydroprocessing catalyst which comprises: a) preparation of a zeolite-alumina support by a dry mixing step a) which consists of mechanically mixing boehmites and USY zeolite; b) adding nitric acid and distilled water to peptize said alumina and form a homogeneous paste; b) extruding the paste to obtain extrudates having a cylindrical shape; c) drying the extrudate at 100-120° C. for 12-15 hours; d) calcining of the dried extrudates at 500-550° C. with excess air to obtain a gamma alumina support; e) successive impregnation of the supports, first with ammonium heptamolybdate and then with nickel nitrate; f) aging of the resulting solids for 12-18 hours at room temperature to obtain aged solids; g) drying the aged solids at 100-120° C. to obtain dried solids; h) calcining the dried solids to obtain a calcined support; i) impregnating the calcined support by sequential impregnation with a group VIB metal, followed by a group VIIIB metal to obtain a promoted catalyst; j) drying the promoted catalyst at a temperature be