Patent Number: 046541721
Section: claims

1. A method of processing radioactive waste resin by pyrolyzing radioactive waste ion exchange resin generated in a nuclear plant in a reaction vessel, comprising pyrolyzing said ion exchange resin without the presence of oxygen at low temperatures between 120.degree. C. and 350.degree. C. in the same reaction vessel, separating the resulting decomposition gas, then pyrolyzing said ion exchange resin in the presence of oxygen at high temperatures between 350.degree. C. and 600.degree. C. in the same reaction vessel, separating the resulting decomposition gas, and thereafter hot-pressing the residue of said ion exchange resin into a molded article in the same reaction vessel. 2. A method of processing radioactive waste resin as defined in claim 1, wherein the pyrolyzing at a high temperature is effected while supplying an oxidizing agent. 3. A method of processing radioactive waste resin as defined in claim 2, wherein said oxidizing agent is air. 4. A method of processing radioactive waste resin as defined in claim 3, wherein the average velocity of the air supplied from outside is up to 1.5 cm/s within the reaction vessel. 5. A method of processing radioactive waste resin as defined in claim 1, wherein said hot-pressing is effected while at least part of said residue is being fused or softened by the pyrolysis at high temperatures between 350.degree. C. and 600.degree. C. 6. A method of processing radioactive waste resin as defined in claim 5, wherein said hot-pressing is effected immediately after the pyrolysis at a high temperature while the temperature is being kept as such. 7. A method of processing radioactive waste resin as defined in claim 1, wherein the pyrolysis at a high temperature is effected in the presence of a vitrifying agent which adsorbs volatile radioactive substances. 8. A method of processing radioactive waste resin as defined in claim 7, wherein said vitrifying agent is added before the pyrolysis at a low temperature is effected. 9. A method of processing radioactive waste resin as defined in claim 7, wherein said vitrifying agent is glass frit comprising silica as its principal component. 10. A method of processing radioactive ion exchange resins into stable and safely storable forms comprising the steps of: a. introducing a quantity of radioactive ion exchange resin into a sealed reaction vessel;  b. heating the radioactive ion exchange resin in the sealed reaction vessel without the presence of oxygen to a temperature sufficient to remove the ion exchange group from the radioactive ion exchange resin but insufficient to decompose the polymer backbone of the radioactive ion exchange resin and insufficient to initiate the spattering of the radioactive material;  c. removing the gases produced by the heating of the radioactive ion exchange resin from the reaction vessel and introducing said gases to an exhaust gas processing apparatus;  d. inserting an oxygen-containing gas into the reaction vessel at a velocity insufficient to initiate the spattering of the radioactive material;  e. heating the remaining radioactive resin and the oxygen-containing gas in the reaction vessel to a temperature sufficient to decompose the polymer backbone of the remaining radioactive resin;  f. removing the gases produced by the heating of the radioactive resin and the oxygen containing gas from the reaction vessel;  g. hot-pressing the remaining radioactive residue while within the reaction vessel into a molded article at a temperature substantially similar to that of the heating of the radioactive resin; and,  h. removing the molded article containing the radioactive residue from the reaction vessel. 11. A method of processing radioactive ion exchange resin as defined in claim 10, wherein the heating of the radioactive ion exchange resin in the reaction vessel without the pressure of oxygen occurs at a temperature of 350.degree. C. or below. 12. A method of processing radioactive ion exchange resin as defined in claim 10, wherein the heating of the radioactive resin and the oxygen-containing gas in the reaction vessel occurs at a temperature of 350.degree. C. or above. 13. A method of processing radioactive ion exchange resin as defined in claims 10, wherein the inserting of an oxygen-containing gas into the reaction vessel is at a velocity of 1.5 cm/s or below. 14. A method of processing radioactive ion exchange resin as defined in claim 10, wherein the gases produced by the heating of the radioactive ion exchange resin in the reaction vessel without the pressure of oxygen are sulfur and nitrogen oompounds. 15. a method of processing radioactive ion exchange resin as defined in claim 14, wherein the gases of the sulfur and nitrogen compounds are SO.sub.x, H.sub.2 S, NO.sub.x and NH.sub.4. 16. A method of processing radioactive ion exchange resin as defined in claim 10, wherein the exhaust gas processing apparatus is an alkali scrubber which converts the gases produced by the heating of the radioactive ion exchange resin in the reaction vessel without the presence of oxygen, into aqueous solutions of sodium salts. 17. A method of processing radioactive ion exchange resin as defined in claim 10, wherein the gases produced by the heating of the radioactive resin and the oxygen-containing gas in the reaction vessel are CO.sub.2, CO, H.sub.2 and CH.sub.4. 18. A method of processing radioactive ion exchange resin as defined in claim 17, wherein the CO.sub.2, CO, H.sub.2 and CH.sub.4 gases are introduced to a flame stack and burnt producing CO.sub.2 and H.sub.2 O gases. 19. A method of processing radioactive ion exchange resin as defined in claim 11, wherein the heating of the radioactive ion exchange resin in the reaction vessel without the presence of oxygen occurs at a temperature between 120.degree. C. and 350.degree. C. 20. A method of processing radioactive ion exchange resin as defined in claim 19, wherein the heating of the radioactive ion exchange resin in the reaction vessel without the presence of oxygen occurs at about 300.degree. C. 21. A method of processing radioactive ion exchange resin as defined in claim 12, wherein the heating of the radioactive ion exchange resin and the oxygen-containing gas in the reaction vessel occurs at a temperature of about 600.degree. C. 22. A method of processing radioactive ion exchange resin as defined in claim 10, wherein said hot-pressing occurs immediately after the heating of the remaining radioactive resin and the oxygen-containing gas in the reaction vessel to a temperature sufficient to decompose the polymer backbone of the remaining radioactive resin, which the temperature of the reaction vessel is maintained as such. 23. A method of processing radioactive ion exchange resin as defined in claim 10, wherein the heating of the remaining radioactive resin and the oxygen-containing gas in the reaction vessel to a temperature sufficient to decompose the polymer backbone of the remaining radioactive resin occurs in the presence of a vitrifying agent which absorbs volatile radioactive substances. 24. A method of processing radioactive waste resin as defined in claim 23, wherein said vitrifying agent is added prior to heating.