Hydrotreating catalyst for hydrocarbon oil, method for producing the same, and method for hydrotreating hydrocarbon oil

The invention claimed is: 1. A hydrotreating catalyst for a hydrocarbon oil, comprising: an inorganic composite oxide carrier comprising alumina as a main component, and an active metal component supported on the carrier, the active metal component comprising, as active metal species, a first metal which is at least one of molybdenum and tungsten, and a second metal which is at least one of cobalt and nickel, the hydrotreating catalyst having a Lewis acid amount and a Brönsted acid amount per unit surface area of 0.80 μmol/m 2 or more and 0.03 μmol/m 2 or less, respectively, as measured by pyridine desorption at 250° C. and a BET single-point method. 2. The hydrotreating catalyst for a hydrocarbon oil according to claim 1 , wherein a content of the first metal is 15 to 22 mass % in terms of oxide, and a content of the second metal is 2 to 7 mass % in terms of oxide. 3. The hydrotreating catalyst for a hydrocarbon oil according to claim 1 , containing less than 2.0 mass % of carbon. 4. The hydrotreating catalyst for a hydrocarbon oil according to claim 1 , having a specific surface area of 200 to 350 m 2 /g. 5. The hydrotreating catalyst for a hydrocarbon oil according to claim 1 , having an average pore diameter of 50 to 100 Å as measured by a mercury intrusion method. 6. The hydrotreating catalyst for a hydrocarbon oil according to claim 1 , having a mass reduced when heat-treated at 570° C. for 2 hours in an air atmosphere of 5.0 mass % or less. 7. The hydrotreating catalyst for a hydrocarbon oil according to claim 1 , having an amount of nitrogen monoxide adsorbed after sulfurization treatment of 8.5 ml/g or more. 8. The hydrotreating catalyst for a hydrocarbon oil according to claim 1 , wherein the inorganic composite oxide carrier contains silicon and phosphorus in amounts of 0.5 to 8.0 mass % and 1.0 to 5.0 mass %, respectively, in terms of oxide, assuming that an amount of the carrier is 100 mass %. 9. The hydrotreating catalyst for a hydrocarbon oil according to claim 8 , wherein the active metal component contains phosphorus. 10. The hydrotreating catalyst for a hydrocarbon oil according to claim 9 , wherein Pa/Ps, which is a ratio of a proportion Pa of phosphorus contained in the active metal component to a proportion Ps of phosphorus contained in the carrier among the phosphorus contained in the catalyst, is in the range of 0.2 to 3.0. 11. The hydrotreating catalyst for a hydrocarbon oil according to claim 9 , wherein a proportion of the phosphorus contained in the active metal component to the first metal is in the range of 0.02 to 0.15 in terms of oxide mass. 12. The hydrotreating catalyst for a hydrocarbon oil according to any claim 1 , wherein the inorganic composite oxide carrier contains titanium in an amount of 5.0 mass % or less in terms of oxide, magnesium in an amount of 5.0 mass % or less in terms of oxide, or boron in an amount of 5.0 mass % or less in terms of oxide, assuming that the amount of the carrier is 100 mass %. 13. The hydrotreating catalyst for a hydrocarbon oil according to claim 1 , wherein a proportion of the second metal to the first metal is in the range of 0.15 to 0.40 in terms of oxide mass. 14. A method for producing a hydrotreating catalyst for a hydrocarbon oil, comprising: a step (1) of providing an inorganic composite oxide carrier comprising alumina as a main component, which contains silicon and phosphorus in amounts of 0.5 to 8.0 mass % and 1.0 to 5.0 mass %, respectively, in terms of oxide, assuming that the amount of the carrier is 100 mass %; a step (2) of preparing an impregnating solution comprising a raw material for a first metal which is at least one of molybdenum and tungsten, a raw material for a second metal which is at least one of cobalt and nickel, a solvent, a phosphorus component, and an organic acid, and impregnating the inorganic composite oxide carrier with the impregnating solution; and a step (3) of drying and then calcining the inorganic composite oxide carrier impregnated with the impregnating solution obtained in the step (2) to give a hydrotreating catalyst. 15. The method for producing a hydrotreating catalyst according to claim 14 , wherein the step (1) of providing the inorganic composite oxide carrier comprises: a step (a) of adding a silica source and a phosphorus component to a basic aqueous solution of an aluminum salt to prepare a basic mixed aqueous solution containing a basic aluminum salt, and adding an acidic aqueous solution of an aluminum salt to the mixed aqueous solution; a first aging step (b) of aging the inorganic composite oxide hydrate slurry obtained in the step (a); a step (c) of washing the aged inorganic composite oxide hydrate slurry obtained in the step (b); a second aging step (d) of aging the washed inorganic composite oxide hydrate slurry obtained in the step (c); a step (e) of kneading and concentrating the aged inorganic composite oxide hydrate slurry obtained in the step (d) and molding the obtained kneaded product; and a step (f) of drying and calcining the molded product obtained in the step (e). 16. The method for producing a hydrotreating catalyst according to claim 15 , wherein, in the second aging step (d), the washed inorganic composite oxide hydrate slurry obtained in the step (c) is aged with adding ammonia water. 17. A method for hydrotreating a hydrocarbon oil, comprising hydrotreating a hydrocarbon oil in the presence of the hydrotreating catalyst according to claim 1 .