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

The invention claimed is: 1. A manufacturing method for a hydrotreating catalyst for hydrocarbon oil, the method comprising: a titania coating step including simultaneously and continuously adding an aqueous solution of an acidic compound containing titanium and an aqueous solution containing an alkaline compound to a hydrosol containing an alumina hydrate particle at a temperature ranging from 10 to 100° C. and a pH ranging from 4.5 to 6.5 to give a dispersion liquid, and coating a surface of the alumina hydrate particle with a titanium hydroxide particle in the dispersion liquid while keeping the pH constant to give a titania-coated alumina hydrate particle; a washing step of washing the resultant titania-coated alumina hydrate particle to remove a contaminating ion which coexists with the particle; a forming step of forming the washed titania-coated alumina hydrate particle after dehydrating the particle so as to have a moisture content at which the particle is formable; a first drying step of drying a titania-coated alumina hydrate particle formed article obtained by the forming to give a titania-coated alumina support; an impregnating step of impregnating the resultant titania-coated alumina support with a catalytic component-containing aqueous solution containing at least one kind of periodic table group 6 metal compound, at least one kind of periodic table group 8-10 metal compound, and at least one kind of phosphorus compound as catalytic components, and a saccharide; and a second drying step of drying the titania-coated alumina support impregnated with the catalytic component-containing aqueous solution within a range of 100 to 500° C., wherein a crystal system of the alumina hydrate particle in the hydrosol comprises at least one selected from the group consisting of boehmite, pseudoboehmite, and an alumina gel. 2. A manufacturing method for a hydrotreating catalyst for hydrocarbon oil according to claim 1 , wherein the saccharide to be used in the impregnating step comprises at least one kind of saccharide selected from the group consisting of erythritol, arabinose, xylose, xylitol, ribose, fructose, sorbose, glucose, mannose, galactose, sorbitol, mannitol, invert sugar, dulcitol, sucrose, lactose, maltose, trehalose, maltitol, isomerized sugar, and raffinose. 3. A manufacturing method for a hydrotreating catalyst for hydrocarbon oil according to claim 1 , wherein the saccharide to be used in the impregnating step comprises at least one kind of saccharide selected from the group consisting of erythritol, xylose, xylitol, sorbitol, mannitol, invert sugar, maltose, trehalose, maltitol, isomerized sugar, and raffinose. 4. A manufacturing method for a hydrotreating catalyst according to any one of claims 1 to 3 , wherein a crystal system of the alumina hydrate particle comprises boehmite, pseudoboehmite, and/or an alumina gel. 5. A manufacturing method for a hydrotreating catalyst according to claim 1 , wherein a pore sharpness degree of the alumina hydrate particle after calcination at 500° C. for 3 hours is 60% or more. 6. A manufacturing method for a hydrotreating catalyst according to claim 1 , wherein a temperature condition of the titania coating step is a temperature ranging from 15 to 90° C. 7. A manufacturing method for a hydrotreating catalyst for hydrocarbon oil according to claim 1 , wherein an operation of the titania coating step is carried out under the following conditions for (a) pH and (b) coating time: (a) pH: within a pH variation range of ±0.5 with respect to a pH to be determined with the following equation (1): pH=6.0−0.03 ×T   Equation (1) in the equation (1), T represents a ratio (mass %) of titania with respect to a whole of the titania-coated alumina hydrate particle (oxide basis); and (b) coating time: within a range of 5 minutes to 5 hours. 8. A manufacturing method for a hydrotreating catalyst for hydrocarbon oil according to claim 1 , wherein an amount of titanium hydroxide with which the alumina hydrate particle is coated falls within a range of 5 to 40% by mass with respect to a total amount on an oxide basis. 9. A manufacturing method for a hydrotreating catalyst for hydrocarbon oil according to claim 1 , wherein an aging time in the impregnating step falls within a range of 10 minutes to 24 hours. 10. A manufacturing method for a hydrotreating catalyst for hydrocarbon oil according to claim 1 , wherein the periodic table group 6 metal to be used in the impregnating step comprises molybdenum and the periodic table group 8-10 metal comprises cobalt and/or nickel. 11. A manufacturing method for a hydrotreating catalyst for hydrocarbon oil according to claim 1 , wherein an addition amount of the saccharide to be used in the impregnating step falls within a range of 1 to 20% by mass with respect to a total amount on an oxide basis of the support and the catalytic components.