Hydroisomerization catalyst, process for producing the same, method of dewaxing hydrocarbon oil, and process for producing lube base oil

The invention claimed is: 1. A hydroisomerization catalyst, obtained by calcining a catalyst composition comprising a calcined and ion-exchanged molecular sieve and at least one metal selected from the group consisting of metals of Groups 8to 10in the Periodic Table of the elements, molybdenum, and tungsten, carried on the calcined and ion-exchanged molecular sieve, wherein the calcined and ion-exchanged molecular sieve is obtained by ion-exchanging a molecular sieve comprising an organic template in a solution containing water as a main solvent and a cationic species to remove a part of the organic template and calcining the molecular sieve comprising an organic template to remove another part of the organic template, and the molecular sieve comprising an organic template has a nanocrystal having a pore structure of ten-membered rings or eight-membered rings and has a ratio of the pore volume to the external surface area ([pore volume][external surface area]) of 2.0×10 4 mL/m 2 to 8.0×10 −4 mL/m 2 . 2. The hydroisomerization catalyst according to claim 1 , wherein the molecular sieve comprising an organic template is ZSM-22, ZSM-23, or ZSM-48 type zeolite. 3. The hydroisomerization catalyst according to claim 1 , wherein the calcined and ion-exchanged molecular sieve is obtained by ion-exchanging the molecular sieve comprising an organic template in the presence of ammonium ions or protons. 4. The hydroisomerization catalyst according to claim 1 , wherein the calcined and ion-exchanged molecular sieve is obtained by ion-exchanging the molecular sieve comprising an organic template by replacing the solution with a new one once or more. 5. The hydroisomerization catalyst according to claim 1 , wherein the catalyst composition comprises platinum and/or palladium carried on the calcined and ionexchanged molecular sieve. 6. The hydroisomerization catalyst according to claim 1 , obtained by calcining the catalyst composition in an atmosphere containing molecular oxygen, and thereafter, reducing the calcined composition in an atmosphere containing molecular hydrogen. 7. The hydroisomerization catalyst according to claim 1 , wherein the catalyst composition comprises 1 part by mass to 90 parts by mass of the calcined and ionexchanged molecular sieve and 99 parts by mass to 10 parts by mass of at least one porous oxide selected from the group consisting of alumina, silica, titania, boria, magnesia and zirconia. 8. The hydroisomerization catalyst according to claim 1 , wherein the catalyst composition comprises: a carrier obtained by calcining a carrier composition comprising 1 part by mass to 90 parts by mass of the calcined and ion-exchanged molecular sieve and 99 parts by mass to 10 parts by mass of at least one porous oxide selected from the group consisting of alumina, silica, titania, boria, magnesia and zirconia; and the metal carried on the carrier. 9. A hydroisomerization catalyst, obtained by calcining a catalyst composition comprising a calcined and ion-exchanged molecular sieve and at least one metal selected from the group consisting of metals of Groups 8 to 10 in the Periodic Table of the elements, molybdenum, and tungsten, carried on the calcined and ion-exchanged molecular sieve, wherein the calcined and ion-exchanged molecular sieve, is obtained by ion-exchanging a molecular sieve comprising an organic template in a solution containing water as a main component and a cationic species and calcining the molecular sieve comprising an organic template, and the molecular sieve comprising an organic template has a nanocrystal having a pore structure of ten-membered rings or eight-membered rings and has a ratio of the pore volume to the external surface area ([pore volume]/[external surface area]) of 2.0×10 −4 mL/m 2 to 8.0×10 − mL/m 2 . 10. A method for dewaxing a hydrocarbon oil, comprising bringing the hydrocarbon oil containing normal paraffins having 10 or more carbon atoms into contact with the hydroisomerization catalyst according to claim 1 in the presence of hydrogen to convert a part of or the whole of the normal paraffins into isoparaffins. 11. the method for dewaxing a hydrocarbon oil according to claim 10 , wherein the hydrocarbon oil is at least one selected from the group consisting of slack wax, deoiled wax, paraffin wax, microcrystalline wax, petrolatum, and wax from Fischer-Tropsch synthesis. 12. A method for manufacturing a lube-oil base oil, comprising a step of bringing a hydrocarbon oil containing normal paraffins having 10 or more carbon atoms into contact with the hydroisomerization catalyst according to claim 1 , in the presence of hydrogen under the condition of a conversion of the normal paraffins of substantially 100% by mass, the conversion being defined by the formula (I) described below: Conversion of normal paraffins (%) =[1−(total mass % of normal paraffins having Cn or more carbon atoms contained in a hydrocarbon oil after the contact)/(total mass % of normal paraffins having Cn or more carbon atoms contained in the hydrocarbon oil before the contact)]×100   (I) wherein Cn denotes a minimum number of carbon atoms of normal paraffins having 10 or more carbon atoms contained in the hydrocarbon oil before the contact.