TY - GEN
T1 - DOMESTIC AND INTERNATIONAL CONSENSUS STANDARDS FOR NUCLEAR CRITICALITY SAFETY - OVERVIEW & STATUS
AU - Bowen, Douglas G.
N1 - Publisher Copyright:
© Proceedings of the Nuclear Criticality Safety Division 2025 Conference, NCSD 2025. All rights reserved.
PY - 2025
Y1 - 2025
N2 - The domestic and international consensus standards for nuclear criticality safety (NCS) were developed as the lessons-learned from process criticality accidents. These consensus standards were developed to reduce the rate of process criticality accidents in facilities that process, store, handle or transport fissionable materials by hand. After a significant increase in criticality accidents through the mid-1960’s, the rate of criticality accidents decreased due to these standards and the criticality accident rate is extremely low from an industrial safety perspective. The last known criticality accident inside the United States was in 1978 (nearly 47 years ago) at the Idaho Chemical Processing Plant, and outside the United States, an accident occurred at Tokai-mura, Japan, in 1999 (almost 26 years ago). The domestic consensus standards for NCS include the American National Standards (ANS) that are prepared and published by the American Nuclear Society and approved by the American National Standards Institute (ANSI). The ANS Standards Board, the NCS Consensus Committee, and the ANS-8 Subcommittee oversee the development and maintenance of these standards. There are currently 18 standards in the ANS-8 series. Nine ANS-8 standards are either in revision mode or preparing for a revision. A new standard for the use of non-destructive assay measurements (ANSI/ANS-8.28-2024) for NCS was approved in March 2024. The international consensus standards for NCS calculations, procedures, and practices are maintained and developed within the International Organization for Standardization, Technical Committee 85 “Nuclear Energy,” Subcommittee 5, “Nuclear Fuel Technology,” and Working Group 8, “Nuclear Criticality Safety.” Eleven standards are currently available, four standards are proposed for revision, and four standards are at various stages of development. This paper provides the NCS community with a high-level overview and status report of domestic and international NCS consensus standards to stimulate interest and to support their continued development.
AB - The domestic and international consensus standards for nuclear criticality safety (NCS) were developed as the lessons-learned from process criticality accidents. These consensus standards were developed to reduce the rate of process criticality accidents in facilities that process, store, handle or transport fissionable materials by hand. After a significant increase in criticality accidents through the mid-1960’s, the rate of criticality accidents decreased due to these standards and the criticality accident rate is extremely low from an industrial safety perspective. The last known criticality accident inside the United States was in 1978 (nearly 47 years ago) at the Idaho Chemical Processing Plant, and outside the United States, an accident occurred at Tokai-mura, Japan, in 1999 (almost 26 years ago). The domestic consensus standards for NCS include the American National Standards (ANS) that are prepared and published by the American Nuclear Society and approved by the American National Standards Institute (ANSI). The ANS Standards Board, the NCS Consensus Committee, and the ANS-8 Subcommittee oversee the development and maintenance of these standards. There are currently 18 standards in the ANS-8 series. Nine ANS-8 standards are either in revision mode or preparing for a revision. A new standard for the use of non-destructive assay measurements (ANSI/ANS-8.28-2024) for NCS was approved in March 2024. The international consensus standards for NCS calculations, procedures, and practices are maintained and developed within the International Organization for Standardization, Technical Committee 85 “Nuclear Energy,” Subcommittee 5, “Nuclear Fuel Technology,” and Working Group 8, “Nuclear Criticality Safety.” Eleven standards are currently available, four standards are proposed for revision, and four standards are at various stages of development. This paper provides the NCS community with a high-level overview and status report of domestic and international NCS consensus standards to stimulate interest and to support their continued development.
KW - ANS
KW - consensus standards
KW - ISO
KW - nuclear criticality safety
UR - https://www.scopus.com/pages/publications/105022594465
U2 - 10.13182/NCSD25-48020
DO - 10.13182/NCSD25-48020
M3 - Conference contribution
AN - SCOPUS:105022594465
T3 - Proceedings of the Nuclear Criticality Safety Division 2025 Conference, NCSD 2025
SP - 812
EP - 822
BT - Proceedings of the Nuclear Criticality Safety Division 2025 Conference, NCSD 2025
PB - American Nuclear Society
T2 - 2025 Nuclear Criticality Safety Division Conference, NCSD 2025
Y2 - 14 September 2025 through 18 September 2025
ER -