Add to ORKGThis work analyzes the optimal placement of a criticality accident alarm system (CAAS) necessitated by an unexpected accumulation of fissile materials in the filtration system of an idled experimental nuclear reactor. Results using multidimensional deterministic and Monte Carlo methods confirmed the suitability of an existing CAAS placement located in the adjacent reactor building
The characteristics, detection, and emergency management of nuclear criticality accidents outside re...
Typically, the staff of a nonreactor nuclear facility or a processing facility involving nuclear mat...
An experimental and calculational study has been performed to understand and prevent inadvertent act...
Under the current climate of increasing regulation and decreasing budgets, DOE nuclear facilities ar...
Additional services for the uranium enrichment cascade process, such as maintenance and decontaminat...
The diffusion cascade processing equipment at the Portsmouth Gaseous Diffusion Plant (PORTS) is loca...
This report summarizes the results of an evaluation of Criticality Accident Alarm System (CAAS) cove...
Criticality alarm systems (CASs) are mandatory in nuclear plants for prompt alarm in the event of an...
Additional services for the uranium enrichment cascade process, such as UF{sub 6} feed, sampling, an...
A detailed instructional manual was created to guide criticality safety engineers through the proces...
Neutron-sensitive radiation detectors are used in the Portsmouth Gaseous Diffusion Plant`s (PORTS) c...
The Portsmouth Gaseous Diffusion Plant (PORTS) is leased from the US Department of Energy (DOE) by t...
This report provides an independent assessment of nuclear criticality issues associated with uranium...
The technical basis for the use of alarming personal criticality detectors (APCDs) to augment perman...
Although idealized calculations of the potential for an atomic explosion within a repository can mak...
The characteristics, detection, and emergency management of nuclear criticality accidents outside re...
Typically, the staff of a nonreactor nuclear facility or a processing facility involving nuclear mat...
An experimental and calculational study has been performed to understand and prevent inadvertent act...
Under the current climate of increasing regulation and decreasing budgets, DOE nuclear facilities ar...
Additional services for the uranium enrichment cascade process, such as maintenance and decontaminat...
The diffusion cascade processing equipment at the Portsmouth Gaseous Diffusion Plant (PORTS) is loca...
This report summarizes the results of an evaluation of Criticality Accident Alarm System (CAAS) cove...
Criticality alarm systems (CASs) are mandatory in nuclear plants for prompt alarm in the event of an...
Additional services for the uranium enrichment cascade process, such as UF{sub 6} feed, sampling, an...
A detailed instructional manual was created to guide criticality safety engineers through the proces...
Neutron-sensitive radiation detectors are used in the Portsmouth Gaseous Diffusion Plant`s (PORTS) c...
The Portsmouth Gaseous Diffusion Plant (PORTS) is leased from the US Department of Energy (DOE) by t...
This report provides an independent assessment of nuclear criticality issues associated with uranium...
The technical basis for the use of alarming personal criticality detectors (APCDs) to augment perman...
Although idealized calculations of the potential for an atomic explosion within a repository can mak...
The characteristics, detection, and emergency management of nuclear criticality accidents outside re...
Typically, the staff of a nonreactor nuclear facility or a processing facility involving nuclear mat...
An experimental and calculational study has been performed to understand and prevent inadvertent act...