Patent Number: 
Section: claims

1. A method of removing an oxide film containing radioactive nuclides and adhering to a contaminated object to be decontaminated as a component of a radioactive handling facility, said method comprising the steps of: providing an acid solution having a pH value in a range of 3 to 6 and consisting of water and an inorganic acid dissolved in the water, the inorganic acid being selected from the group consisting of nitric acid and sulphuric acid, the pH value being adjusted with the inorganic acid;  bringing ozone gas into contact with the acid solution, thereby dissolving the ozone gas into the acid solution to make an ozone solution consisting of ozone dissolved in the acid solution; and  contacting the ozone solution with the contaminated object at temperatures in a range of 50 to 90xc2x0 C., thereby oxidatively dissolving the oxide film with the ozone solution. 2. The method according to  claim 1 , wherein the inorganic acid is nitric acid. claim 1 3. The method according to  claim 1 , wherein the inorganic acid acts only as a pH adjusting agent, and oxidative dissolution of the oxide film is exclusively effected by the ozone solution. claim 1 4. The method according to  claim 1 , further comprising a step of producing the ozone gas by means of an electrolytic ozonizer, claim 1 wherein the electrolytic ozonizer has an anode chamber, a cathode chamber, catalytic metal arranged in the anode chamber, and a solid electrolyte disposed between the anode and cathode chambers, and  wherein the electrolytic ozonizer is configured so that the catalytic metal is the anode and so that the anode generates the ozone gas in the anode chamber. 5. The method according to  claim 1 , further comprising a step of monitoring an oxidative dissolving ability of the ozone solution by measuring oxidation-reduction potential of the ozone solution. claim 1 6. The method according to  claim 1 , further comprising a reductive dissolving process which supplies an organic acid solution as a decontaminating solution to the contaminated object to remove the oxide film through the reductive dissolution of the oxide film. claim 1 7. The method according to  claim 6 , comprising: claim 6 a reducing agent decomposing process for decomposing an organic acid remaining in the organic acid solution after the reductive dissolving process; and  a solute removing process for removing ions remaining in the ozone solution or in the organic acid solution. 8. The method according to  claim 7 , wherein the reducing agent decomposing process includes the steps of: claim 7 adding at least one of either ozone or hydrogen peroxide to the organic acid solution; and  irradiating the organic acid solution with at least one of ultraviolet rays or radioactive rays. 9. The method according to  claim 7 , wherein the reducing agent decomposing process irradiates titanium oxide with light and brings titanium oxide into contact with the organic acid solution to use photocatalytic action of titanium oxide for decomposing the organic acid. claim 7 10. The method according to  claim 7 , further comprising an oxidizing agent decomposing process for decomposing ozone contained in the ozone solution by irradiating the ozone solution with ultraviolet rays or radiation. claim 7 11. The method according to  claim 6 , wherein the organic acid solution used in the reductive dissolving process contains a salt of the organic acid contained in the organic acid solution in addition to the organic acid. claim 6 12. The method according to  claim 1 , further comprising: claim 1 adding an organic acid to the ozone solution to form an organic acid solution after contacting the ozone solution with the contaminated object;  contacting the organic acid solution with the contaminated object thereby reducing remaining oxides on the contaminated object;  decomposing the organic acid remaining in the organic acid solution; and  removing ions remaining in the organic acid solution after decomposition of the organic acid. 13. A method of removing an oxide film containing radioactive nuclides comprising: forming an aqueous ozone solution and adjusting the pH of the aqueous ozone solution with an inorganic acid to form an acidic ozone solution;  heating the acidic ozone solution to a temperature of 50-90xc2x0 C.;  applying the acidic ozone solution to the oxide film wherein ozone in the acidic ozone solution dissolves the oxide film;  decomposing the ozone in the acidic ozone solution by irradiating the ozone with radiation to form an ozone depleted solution; and  passing the ozone depleted solution through an ion exchange resin after being irradiated. 14. A method of removing an oxide film containing radioactive nuclides from an object comprising: dissolving ozone in water to form an aqueous ozone solution;  adjusting the pH of the aqueous ozone solution to a pH range of 3-6 with an inorganic acid to form an acidic ozone solution;  heating the acidic ozone solution to a temperature of 50-90xc2x0 C.;  applying the acidic ozone solution to the oxide film; and  dissolving the oxide film with the ozone in the acidic ozone solution. 15. A method as set forth in  claim 14 , further comprising: claim 14 irradiating and decomposing ozone remaining in the acidic ozone solution after the dissolution of the oxide film to form an ozone free depleted solution. 16. A method as set forth in  claim 15 , further comprising passing the ozone depleted solution through an ion exchange resin. claim 15 17. A method as set forth in  claim 15 , further comprising adding an organic acid to the ozone free depleted solution to form an organic acid solution and exposing the object to the organic acid solution to dissolve a further oxide on the object. claim 15 18. A method as set forth in  claim 17 , further comprising adding ozone to the organic acid solution after the object has been exposed to the organic acid solution and decomposing the organic acid. claim 17