Patent Number: 048044989
Section: claims

1. A process for treating radioactive waste liquid comprising: a first step of converting a soluble component comprising sodium sulfate or sodium borate contained in the radioactive waste liquid into an insoluble substance by adding a soluble barium compound when the soluble component comprises sodium sulfate or a soluble calcium compound when the soluble component comprises sodium borate and precipitating the insoluble substance;  a second step of adding an adsorbent for absorbing radioactive substances, said adsorbent being selected from the group consisting of a titanium compound, a zirconium compound and a metal ferrocyanide;  a third step of separating caustic soda formed in the precipitate;  a fourth step of solidifying a slurry containing the precipitate with a hydraulic solidifying material; and  a fifth step of removing said separate caustic soda for reuse of said separated caustic soda.  a first step of adding an additive to the radioactive waste liquid for converting a soluble component comprising sodium sulfate or sodium borate contained in the radioactive waste liquid into an insoluble substance and for precipitating the insoluble substance and adding an adsorbent for adsorbing radioactive substances, said additive being a soluble barium compound when the soluble component comprises sodium sulfate or a soluble calcium compound when the soluble compound comprises sodium borate, and said adsorbent being selected from the group consisting of a titanium compound, a zirconium compound and a metal ferrocyanide;  a second step of separating caustic soda formed in conversion of the radioactive waste liquid into the insoluble substance;  a third step of solidifying a slurry of the radioactive waste liquid separated from said caustic soda with a hydraulic solidifying material; and  a fourth step of removing said separated caustic soda for reuse of said separated soda.  a first step of converting a soluble component comprising sodium sulfate or sodium borate contained in the radioactive waste liquid into an insoluble substance by adding a soluble barium compound when the soluble component comprises sodium sulfate or a soluble calcium compound when the soluble component comprises sodium borate and precipitating the insoluble substance;  a second step of adding an adsorbent for adsorbing radioactive substances, said adsorbent being selected from the group consisting of a titanium compound, a zirconium compound and a metal ferrocyanide;  a third step of separating caustic soda formed in the precipitate;  a fourth step of powdering the precipitate by drying;  a fifth step of solidifying the dried powder by adding water and a hydraulic solidifying material; and  a sixth step of removing said separated caustic soda for reuse of said separated caustic soda.  a first step of adding an additive to the radioactive waste liquid for converting a soluble component comprising sulfate or sodium borate contained in the radioactive waste liquid into an insoluble substance and for precipitating the insoluble substance and adding an adsorbent for adsorbing radioactive substances, said additive being a soluble barium compound when the soluble component comprises sodium sulfate or a soluble calcium compound when the soluble component comprises sodium borate, and said adsorbent being selected from the group consisting of a titanium compound, a zirconium compound and a metal ferrocyanide;  a second step of separating caustic soda formed in conversion of the radioactive waste liquid into the insoluble substance;  a third step of powdering by drying a slurry of the radioactive waste liquid from which caustic soda is separated;  a fourth step of solidifying the dried powder by adding water and a hydraulic solidifying material; and  a fifth step for removing said separated caustic soda for reuse of said separated caustic soda. 2. A process for treating radioactive waste liquid according to claim 1, wherein said adsorbent is copper ferrocyanide. 3. A process for treating ratioactive waste liquid according to claim 1, wherein said slurry is powdered by drying, and said fourth step is performed by adding a hydraulic solidifying material. 4. A process for treating radioactive waste liquid according to claim 1, wherein said slurry is concentrated by evaporation, and said fourth step is performed by adding a hydraulic solidifying material. 5. A process for treating radioactive waste liquid according to claim 1, wherein the separated caustic soda is passed through a filter member filled with an adsorbent for absorbing of radioactive substances. 6. A process for treating radioactive waste liquid according to claim 1, wherein before the third step, the precipitate is concentrated by evaporating a moisture component of the precipitate. 7. A process for treating radioactive waste liquid comprising: 8. A process for treating radioactive waste liquid according to claim 7, wherein adding the adsorbent for adsorption of the radioactive substances is performed in advance of adding the additive for converting the soluble component contained in the radioactive waste liquid into the insoluble substance and for precipitating the insoluble substance. 9. A process for treating radioactive waste liquid according to claim 7, wherein the slurry is concentrated by evaporation of a moisture component of the slurry in advance of the third step of solidifying the slurry with the hydraulic solidifying material. 10. A process for treating radioactive waste liquid comprising: 11. A process for treating radioactive waste liquid comprising: 12. A process for treating radioactive waste liquid according to claim 1, wherein the second step of adding an adsorbent is performed simultaneously with the first step of converting and precipitating.