Method of depositing noble metal on structure member of nuclear plant

What is claimed is: 1. A method of depositing a noble metal on a structure member of a nuclear plant, comprising: 1) executing reduction decontamination of a surface of a structure member of a nuclear plant in contact with reactor water by using a first aqueous solution including a reduction decontamination agent; and 2) bringing a second aqueous solution including noble metal ions, a reduction agent, and said reduction decontamination agent into contact with said surface of said structure member on which said reduction decontamination is executed and depositing said noble metal on said surface; wherein said second aqueous solution is generated by injecting chemical including said noble metal ions and said reduction agent into said first aqueous solution, wherein step 2 is performed in a period that at least part of said reduction decontamination agent from step 1 remains in said second aqueous solution and has not been decomposed, wherein steps 1 and 2 are executed after operation stop of said nuclear plant but before start of said nuclear plant, and wherein the noble metal is selected from the group consisting of platinum, palladium, rhodium, ruthenium, osmium, and iridium. 2. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 1 , comprising: decomposing said reduction decontamination agent and said reduction agent included in said second aqueous solution after said second aqueous solution is brought into contact with said surface at said second step. 3. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 2 , further comprising: adjusting the pH of said second aqueous solution including said noble metal ions, said reduction agent, and said reduction decontamination agent within a range from 3.5 to 9.0 by injecting said reduction agent prior to said second step. 4. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 2 , further comprising: adjusting the temperature of said second aqueous solution including said noble metal ions, said reduction agent, and said reduction decontamination agent to within a range from 60° C. to 100° C. prior to said second step. 5. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 2 , wherein the reduction decontamination agent and the reduction agent is decomposed using a catalyst and an oxidizing agent. 6. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 1 , further comprising: 3) supplying said second aqueous solution to a resin tower filled with cation exchange resin and anion exchange resin after said noble metal is deposited on said surface; and 4) purifying said second aqueous solution in said resin tower. 7. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 1 , wherein said first aqueous solution comprises said reduction decontamination agent and a pH adjustment agent. 8. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 7 , wherein the reduction agent is hydrazine or the pH adjustment agent is ammonia. 9. A method of depositing a noble metal on a structure member of a nuclear plant, comprising: 1) supplying a first aqueous solution including a reduction decontamination agent to a first pipe and executing reduction decontamination of an inner surface of said first pipe by using said first aqueous solution, wherein the first pipe is said structure member of said nuclear plant connected to a reactor pressure vessel through a second pipe; and 2) supplying a second aqueous solution including noble metal ions, a reduction agent, and said reduction decontamination agent, to said first pipe through said second pipe, wherein the second aqueous solution is generated by injecting chemical including said noble metal ions and said reduction agent into said first aqueous solution including said reduction decontamination agent, 3) bringing said second aqueous solution into contact with said inner surface of said first pipe and depositing said noble metal on said surface, in a period that at least part of said reduction decontamination agent from step 1 remains in said second aqueous solution and has not been decomposed; wherein steps 1, 2, and 3 are executed after operation stop of said nuclear plant but before start of said nuclear plant, and wherein the noble metal is selected from the group consisting of platinum, palladium, rhodium, ruthenium, osmium, and iridium. 10. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 9 , further comprising: forming a closed loop by using said first pipe and said second pipe. 11. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 9 , further comprising: 4) discharging said second aqueous solution from said first pipe after said second aqueous solution is brought into contact with said surface at said second step and decomposing said reduction decontamination agent and said reduction agent included in said second aqueous solution. 12. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 11 , wherein the reduction decontamination agent and the reduction agent is decomposed using a catalyst and an oxidizing agent. 13. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 9 , comprising: adjusting the pH of said second aqueous solution including said noble metal ions, said reduction agent, and said reduction decontamination agent within a range from 3.5 to 9.0 by injecting said reduction agent prior to said second step. 14. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 9 , comprising: adjusting the temperature of said second aqueous solution including said noble metal ions, said reduction agent, and said reduction decontamination agent to within a range from 60° C. to 100° C. prior to said second step. 15. The method of depositing a noble metal on a structure member of a nuclear plant according to claim 9 , wherein the reduction decontamination agent is decomposed by using a catalyst and an oxidizing agent.