Add to ORKGThe Fuel Conditioning Facility (FCF) at the Idaho National Laboratory (INL) treats spent nuclear fuel using an electro-chemical process that separates the uranium from the fission products, sodium thermal bond, and cladding materials [REF 1]. Upon immersion into the ER electrolyte, the sodium used to thermally bond the fuel to the clad jacket chemically reacts with the UCl3 in the electrolyte producing NaCl and uranium metal. The uranium in the spent fuel is separated from the cladding and fission products by taking advantage of the electro-chemical potential differences between uranium and the other fuel components. Assuming all the sodium in the thermal bond is converted to NaCl in the ER, the difference between the cumulative bond sodium...
As the end of World War II approached, scientists who developed the processes to generate nuclear ma...
In support of closing the nuclear fuel cycle using non-aqueous separations technology, this project ...
Unirradiated sodium bonded metal fuel and casting scrap material containing highly enriched uranium ...
Preparations are underway to demonstrate the electrolytic reduction of spent oxide nuclear fuel in t...
This project is a fundamental study to measure thermal properties (liquidus, solidus, phase transfor...
In its 70-year history, Idaho National Laboratory has pioneered significant nuclear advancements and...
Specific surplus high enriched uranium (HEU) materials at the Idaho National Laboratory (INL) Materi...
Processing sodium-bonded spent nuclear fuel at the Fuel Conditioning Facility at Argonne National La...
The EBR-II plant includes an integral, remote-controlled Fuel Cycle Facility wherein spent fuel elem...
Argonne National Laboratory (ANL) has developed and is presently demonstrating the electrometallurgi...
Argonne National Laboratory (ANL) has developed and demonstrated an electrometallurgical process for...
At Argonne National Laboratory-West (ANL-West) there are several thousand kilograms of metallic spen...
(MSR) is a design of an advanced reactor system from the GEN IV family working in thermal or epither...
Pyrochemical processing is a promising technology for closing the nuclear fuel cycle for next genera...
Reducing the cooling time of spent fast breeder reactor (FBR) fuel, thus reducing the doubling time ...
As the end of World War II approached, scientists who developed the processes to generate nuclear ma...
In support of closing the nuclear fuel cycle using non-aqueous separations technology, this project ...
Unirradiated sodium bonded metal fuel and casting scrap material containing highly enriched uranium ...
Preparations are underway to demonstrate the electrolytic reduction of spent oxide nuclear fuel in t...
This project is a fundamental study to measure thermal properties (liquidus, solidus, phase transfor...
In its 70-year history, Idaho National Laboratory has pioneered significant nuclear advancements and...
Specific surplus high enriched uranium (HEU) materials at the Idaho National Laboratory (INL) Materi...
Processing sodium-bonded spent nuclear fuel at the Fuel Conditioning Facility at Argonne National La...
The EBR-II plant includes an integral, remote-controlled Fuel Cycle Facility wherein spent fuel elem...
Argonne National Laboratory (ANL) has developed and is presently demonstrating the electrometallurgi...
Argonne National Laboratory (ANL) has developed and demonstrated an electrometallurgical process for...
At Argonne National Laboratory-West (ANL-West) there are several thousand kilograms of metallic spen...
(MSR) is a design of an advanced reactor system from the GEN IV family working in thermal or epither...
Pyrochemical processing is a promising technology for closing the nuclear fuel cycle for next genera...
Reducing the cooling time of spent fast breeder reactor (FBR) fuel, thus reducing the doubling time ...
As the end of World War II approached, scientists who developed the processes to generate nuclear ma...
In support of closing the nuclear fuel cycle using non-aqueous separations technology, this project ...
Unirradiated sodium bonded metal fuel and casting scrap material containing highly enriched uranium ...