Method for manufacturing grain oriented electrical steel sheet

The invention claimed is: 1. A method for manufacturing a grain oriented electrical steel sheet, comprising the steps of: preparing a steel slab having a composition including C: 0.08 mass % or less, Si: 2.0 mass % to 8.0 mass %, Mn: 0.005 mass % to 1.0 mass %, Al: 100 ppm or less, N, S and Se: 50 ppm or less, respectively, and balance as Fe and incidental impurities; rolling the steel slab to obtain a steel sheet having the final sheet thickness; and subjecting the steel sheet to primary recrystallization annealing and then secondary recrystallization annealing, wherein Al, N, S and Se constitute inhibitor components to be reduced, and the primary recrystallization annealing includes heating the steel sheet to temperature equal to or higher than 700° C. at a heating rate of at least 150° C./s, then cooling the steel sheet only to a temperature within the range of 500° C. or more and 700° C. or lower, then heating the steel sheet to soaking temperature at an average heating rate not exceeding 40° C./s, and then cooling the steel sheet. 2. The method for manufacturing a grain oriented electrical steel sheet of claim 1 , wherein oxidizability of an atmosphere, represented by PH 2 O/PH 2 , under which the primary recrystallization annealing is carried out is set to be 0.05 or lower. 3. The method for manufacturing a grain oriented electrical steel sheet of claim 1 , wherein the composition of the steel slab further includes at least one element selected from Ni: 0.03 mass % to 1.50 mass %, Sn: 0.01 mass % to 1.50 mass %, Sb: 0.005 mass % to 1.50 mass %, Cu: 0.03 mass % to 3.0 mass %, P: 0.03 mass % to 0.50 mass %, Mo: 0.005 mass % to 0.10 mass %, and Cr: 0.03 mass % to 1.50 mass %. 4. The method for manufacturing a grain oriented electrical steel sheet of claim 1 , wherein the rolling step comprises subjecting the steel slab to hot rolling and then either a single cold rolling process or two or more cold rolling processes interposing intermediate annealing(s) therebetween to obtain a steel sheet having the final sheet thickness. 5. The method for manufacturing a grain oriented electrical steel sheet of claim 2 , wherein the composition of the steel slab further includes at least one element selected from Ni: 0.03 mass % to 1.50 mass %, Sn: 0.01 mass % to 1.50 mass %, Sb: 0.005 mass % to 1.50 mass %, Cu: 0.03 mass % to 3.0 mass %, P: 0.03 mass % to 0.50 mass %, Mo: 0.005 mass % to 0.10 mass %, and Cr: 0.03 mass % to 1.50 mass %. 6. The method for manufacturing a grain oriented electrical steel sheet of claim 2 , wherein the rolling step comprises subjecting the steel slab to hot rolling and then either a single cold rolling process or two or more cold rolling processes interposing intermediate annealing(s) therebetween to obtain a steel sheet having the final sheet thickness. 7. The method for manufacturing a grain oriented electrical steel sheet of claim 3 , wherein the rolling step comprises subjecting the steel slab to hot rolling and then either a single cold rolling process or two or more cold rolling processes interposing intermediate annealing(s) therebetween to obtain a steel sheet having the final sheet thickness. 8. The method for manufacturing a grain oriented electrical steel sheet of claim 5 , wherein the rolling step comprises subjecting the steel slab to hot rolling and then either a single cold rolling process or two or more cold rolling processes interposing intermediate annealing(s) therebetween to obtain a steel sheet having the final sheet thickness. 9. The method for manufacturing a grain oriented electrical steel sheet of claim 1 , wherein the primary recrystallization annealing further includes soaking the steel sheet after heating the steel sheet to the soaking temperature and before then cooling the steel sheet. 10. The method for manufacturing a grain oriented electrical steel sheet of claim 1 , wherein the primary recrystallization annealing is carried out with a continuous annealing furnace that comprises a first heating zone, a first cooling zone, a second heating zone, a soaking zone, and a second cooling zone.