Patent Number: 047028629
Section: claims

1. A method for the final conditioning of radioactive and/or toxic waste which comprises mixing said waste with a radioactive thermoplastic synthetic waste material with a greater than naturally occurring level of radioactivity, said mixture of waste and radioactive thermoplastic synthetic waste material containing radioactive, chlorine-containing thermoplastic synthetic waste material, heating the mixture of said waste and said thermoplastic waste material to a temperataure sufficient to make the thermoplastic waste material flow and become effective as a matrix material enclosing from all sides radioactive waste components of said waste that have remained solid, prior to said heating admixing a substance which binds HC1 without gas development to the radioactive thermoplastic synthetic waste material to prevent release of HCl gas resulting from the decomposition of the chlorine-containing thermoplastic waste material during said heating, and cooling the thermoplastic waste material having embedded therein the solid radioactive waste components of said waste material to solidfy it. 2. Method according to claim 1, wherein the radioactive chlorine-containing thermoplastic synthetic waste material is radioactive polyvinylchloride. 3. A method for the final conditioning of radioactive and/or toxic waste which comprises mixing said waste with a radioactive thermoplastic synthetic waste material with a greater than naturally occurring level of radioactivity, said mixture of waste and radioactive thermoplastic synthetic waste material containing radioactive, halogen-containing thermoplastic synthetic waste material, placing the mixture of said waste and said thermoplastic waste material in a polytetrafluoroethylene container, closing said container, thereafter heating the mixture of said waste and said thermoplastic waste material uniformly in the closed container in an electromagnetic high-frequency field to avoid local overheating of the mixture and minimize decompositin of the halogen-containing thermoplastic material with accompanying liberation of a halogen-containing gas to a temperature sufficient to make the thermoplastic waste material flow and become effective as matrix material enclosing from all sides radioactive waste components of said waste that have remained solid, maintaining an atmosphere in the container during heating of less than 1 bar by applying suction through an opening in the container to minimize formation of voids by gas bubbles in radioactive thermoplastic material in the container, cooling the thermoplastic waste material having embedded therein the solid radioactive waste components of said waste material to solidify it, placing the container together with its contents in a barrel of alloy steel, closing said barrel and subsequently sending said closed barrel to ultimate storage. 4. Method according to claim 3, wherein the radioactive thermoplastic synthetic waste material is radioactive polyvinylchloride.