Method for manufacturing nickel and cobalt mixed sulfide and nickel oxide ore hydrometallurgical method

The invention claimed is: 1. A method for manufacturing a nickel and cobalt mixed sulfide, the method comprising: blowing a hydrogen sulfide gas into a sulfuric acid solution containing nickel and cobalt to cause a sulfidation reaction, thereby obtaining a nickel and cobalt mixed sulfide, wherein the sulfuric acid solution contains iron ions at 1.0 to 4.0 g/L, and a sulfidation reaction is caused by blowing the hydrogen sulfide gas into the sulfuric acid solution and adding sodium hydrogensulfide (NaHS) obtained by absorbing a hydrogen sulfide gas-containing exhaust gas generated by the sulfidation reaction into an alkaline solution. 2. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 1 , wherein an added amount of the sodium hydrogensulfide is equal to or more than an equivalent amount necessary for sulfidation of the iron ions contained in the sulfuric acid solution. 3. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 2 , wherein regarding the amount of the sodium hydrogensulfide added, a solution containing the sodium hydrogensulfide at 20 to 35% by mass is contained at 1.7 to 3.8 m 3 /H with respect to 1000 m 3 /H of the sulfuric acid solution. 4. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 3 , wherein a blowing amount of the hydrogen sulfide gas is 1.5 to 2.5 times a theoretical equivalent amount necessary for sulfidation of nickel and cobalt contained in the sulfuric acid solution. 5. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 4 , wherein the alkaline solution is a sodium hydroxide solution. 6. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 3 , wherein the alkaline solution is a sodium hydroxide solution. 7. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 2 , wherein a blowing amount of the hydrogen sulfide gas is 1.5 to 2.5 times a theoretical equivalent amount necessary for sulfidation of nickel and cobalt contained in the sulfuric acid solution. 8. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 7 , wherein the alkaline solution is a sodium hydroxide solution. 9. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 2 , wherein the alkaline solution is a sodium hydroxide solution. 10. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 1 , wherein regarding the amount of the sodium hydrogensulfide added, a solution containing the sodium hydrogensulfide at 20 to 35% by mass is contained at 1.7 to 3.8 m 3 /H with respect to 1000 m 3 /H of the sulfuric acid solution. 11. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 10 , wherein a blowing amount of the hydrogen sulfide gas is 1.5 to 2.5 times a theoretical equivalent amount necessary for sulfidation of nickel and cobalt contained in the sulfuric acid solution. 12. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 11 , wherein the alkaline solution is a sodium hydroxide solution. 13. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 10 , wherein the alkaline solution is a sodium hydroxide solution. 14. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 1 , wherein a blowing amount of the hydrogen sulfide gas is 1.5 to 2.5 times a theoretical equivalent amount necessary for sulfidation of nickel and cobalt contained in the sulfuric acid solution. 15. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 14 , wherein the alkaline solution is a sodium hydroxide solution. 16. The method for manufacturing a nickel and cobalt mixed sulfide according to claim 1 , wherein the alkaline solution is a sodium hydroxide solution. 17. A nickel oxide ore hydrometallurgical method by which a nickel and cobalt mixed sulfide is generated from a leachate containing nickel and cobalt obtained by carrying out a leaching treatment using sulfuric acid on a nickel oxide ore, the method comprising: a sulfidation step in which a sulfidation reaction is caused by blowing a hydrogen sulfide gas into the leachate to obtain a nickel and cobalt mixed sulfide, wherein the leachate contains iron ions at 1.0 to 4.0 g/L, and in the sulfidation step, a sulfidation reaction is caused by blowing the hydrogen sulfide gas into the leachate and adding sodium hydrogensulfide (NaHS) obtained by absorbing a hydrogen sulfide gas-containing exhaust gas generated by the sulfidation reaction into an alkaline solution.