Claims
- 1. An electrolytic process of recovering a nuclear reactor metal fuel comprising the steps of:
- providing an electrolytic cell including a fused salt electrolyte containing metal halides of the reactor metal fuel, an anode electrode and a cathode electrode in contact with the electrolyte, and said anode being an active metal capable of displacing a select group of metals from said metal halides contained in said electrolyte and with said cathode being an inert metal when in contact with said select group of metals;
- operating the cell during a cathode deposition step by limiting a cell current generated during said cathode deposition to selectively deposit metals onto said cathode electrode from said metal halides in said electrolyte.
- 2. An electrolytic process as recited in claim 1 wherein sodium or cerium at said active metal anode electrode is used for displacing each of the metals deposited at said cathode electrode during said cathode deposition step.
- 3. An electrolytic process as recited in claim 1 wherein said active metal anode electrode is sodium contained in a sodium beta-alumina or sodium beta"-alumina conductor.
- 4. An electrolytic process as recited in claim 1 wherein said active metal anode electrode is a sodium or cerium alloy.
- 5. An electrolytic process as recited in claim 1 wherein said inert cathode electrode is a noble metal cathode collector.
- 6. An electrolytic process as recited in claim 1 wherein said inert cathode electrode includes inert metal surfaces selected from the group consisting of Mo or W.
- 7. An electrolytic process as recited in claim 1 wherein said step of selectively depositing metals at said cathode electrode is achieved by passing current to generate a cell voltage in a range from about +1.35 volt to +0.44 volt.
- 8. An electrolytic process as recited in claim 1 wherein said step of operating the cell during a cathode deposition step includes operating the cell as a discharging battery and limiting current flow, whereby the metals plate out in a predetermined order as the cell voltage drops.
- 9. An electrolytic process of recovering a nuclear reactor metal fuel comprising the steps of:
- providing an electrolytic cell including a fused salt electrolyte, an anode electrode and a cathode electrode in contact with the electrolyte, and a source of electrical voltage to said electrodes;
- operating the cell during an anodic dissolution step with a metal fuel basket containing said metal fuel being anode wherein said basket being of a metal which will not undergo oxidation during said anodic dissolution step and with an active metal alloy electrode being said cathode to transfer nuclear reactor metal fuel contained in said metal fuel basket into said electrolyte; and
- operating the cell during a cathode deposition step by limiting a cell current generated during said cathode deposition with said active metal alloy electrode being said anode, said active metal capable of displacing nuclear reactor metal fuel from said electrolyte, and with an inert metal cathode to selectively deposit metals from said nuclear reactor metal fuel transferred into said electrolyte at said cathode electrode, said cathode being inert when in contact with the deposited metals.
- 10. An electrolytic process as recited in claim 9 wherein said cathode electrode during said anodic dissolution step is a sodium .beta. or .beta."-alumina sodium ion conductor.
- 11. An electrolytic process as recited in claim 9 wherein said anode electrode during said cathode deposition step is a sodium .beta. or .beta."-alumina sodium ion conductor containing sodium.
- 12. An electrolytic process as recited in claim 9 wherein said cathode electrode during said anodic dissolution step is said anode electrode during said cathode deposition step.
- 13. An electrolytic process as recited in claim 9 wherein sodium or cerium at said active metal anode electrode is used for displacing each of the metals deposited at said cathode electrode during said cathode deposition step.
- 14. An electrolytic process as recited in claim 9 during said cathode deposition step said inert cathode electrode is an inert metal current collection electrode selected from the group consisting of MO or W.
- 15. An electrolytic process as recited in claim 9 wherein said step of operating the cell during said anodic dissolution step includes the step of applying an external voltage up to approximately -1.35 volt.
- 16. An electrolytic process as recited in claim wherein said step of operating the cell during said cathode deposition step includes the step of passing current to generate a voltage in a range between approximately +1.35 volt to 0.44 volt.
CONTRACTUAL ORIGIN OF THE INVENTION
The United States Government has rights in this invention pursuant to Contract No. W-31-109-ENG-38 between the U.S. Government and Argonne National Laboratories.
US Referenced Citations (7)