Add to ORKGRadioactive waste containing low concentrations of fissile isotopes is stored in underground storage tanks on the Hanford Site in Washington State. The goal of criticality safety is to ensure that this waste remains subcritical into the indefinite future without supervision. A large ratio of solids to plutonium provides an effective way of ensuring a low plutonium concentration. Since the first waste discharge, a program of audits and appraisals has ensured that operations are conducted according to limits and controls applied to them. In addition, a program of surveillance and characterization maintains watch over waste after discharge
Assessment of nuclear criticality potential of the S-Area Defense Waste Processing Facility (DWPF) i...
BS>Plutonium and americium accumulations and the nuclear criticality implications were evaluated for...
The Department of Energy's Hanford Nuclear Site located in Washington State has accumulated over 2 m...
Since 1945 waste streams containing radioactive isotopes have been discharged to underground storage...
This criticality safety evaluation covers operations for waste in underground storage tanks at the h...
This paper describes the approach used to resolve the Nuclear Criticality Safety Issue for the Hanfo...
High-level radioactive waste from nuclear fuels processing is stored in underground waste storage ta...
Data and calculations from previous criticality safety evaluations and analyses were used to evaluat...
This report assesses the potential during retrieval operations for segregation and concentration of ...
This report presents an in-depth review of the potential for nuclear criticality to occur in Hanford...
The federal government established the Hanford Site in South-Eastern Washington near the City of Ric...
Interim storage of alkaline, high-level radioactive waste, from two generations of spent fuel reproc...
The technical basis for the nuclear criticality safety of stored wastes at the Hanford Site Tank Far...
The disposal of low-level radioactive waste (LLW) containing special nuclear material (SNM) presents...
A criticality safety assessment was performed in support of Project 320 for the retrieval of waste f...
Assessment of nuclear criticality potential of the S-Area Defense Waste Processing Facility (DWPF) i...
BS>Plutonium and americium accumulations and the nuclear criticality implications were evaluated for...
The Department of Energy's Hanford Nuclear Site located in Washington State has accumulated over 2 m...
Since 1945 waste streams containing radioactive isotopes have been discharged to underground storage...
This criticality safety evaluation covers operations for waste in underground storage tanks at the h...
This paper describes the approach used to resolve the Nuclear Criticality Safety Issue for the Hanfo...
High-level radioactive waste from nuclear fuels processing is stored in underground waste storage ta...
Data and calculations from previous criticality safety evaluations and analyses were used to evaluat...
This report assesses the potential during retrieval operations for segregation and concentration of ...
This report presents an in-depth review of the potential for nuclear criticality to occur in Hanford...
The federal government established the Hanford Site in South-Eastern Washington near the City of Ric...
Interim storage of alkaline, high-level radioactive waste, from two generations of spent fuel reproc...
The technical basis for the nuclear criticality safety of stored wastes at the Hanford Site Tank Far...
The disposal of low-level radioactive waste (LLW) containing special nuclear material (SNM) presents...
A criticality safety assessment was performed in support of Project 320 for the retrieval of waste f...
Assessment of nuclear criticality potential of the S-Area Defense Waste Processing Facility (DWPF) i...
BS>Plutonium and americium accumulations and the nuclear criticality implications were evaluated for...
The Department of Energy's Hanford Nuclear Site located in Washington State has accumulated over 2 m...