Standard

IEEE N42.54-2018

Actuel

Amendements et versions existants ou nouveaux doivent être achetés séparément.

Langue
Format

Résumé

New IEEE Standard - Active. The complexity associated with quantitative assay and monitoring of aerosols and gasses can be substantial. This standard covers system design, manufacture, performance, testing, calibration, and maintenance requirements for noble gases, aerosols (including transuranics), tritium, and radioiodides.

Spécifications des produits

  • Standard de IEEE/ANSI
  • Publié:
  • Type de document: IS
  • Pages
  • Editeur: IEEE/ANSI
  • Distributeur: IEEE/ANSI
  • ICS: 17.240
  • Comité national: National Committee on Radiation Instrumentation /

Relations produit

  • Référence: IEEE N323AB-2013
  • Référence: IEEE N323C-2009
  • Référence: IEEE N42.30-2002
  • Référence: IEEE N42.23-1996
  • Référence: IEEE N42.22-1995
  • Référence: IEEE N42.17B-1989
  • Référence: IEEE N320-1979
  • Référence: IEEE N42.18-2004
  • Référence: NCSL RP-1, Establishment and Adjustment of Calibration Intervals.
  • Référence: USNRC Regulatory Guide 5.71, Cyber Security Programs for Nuclear Faculties, Jan. 2010.
  • Référence: Code of Federal Regulations Title 10 Part 835 (10 CFR 835), Occupational Radiation Protection.
  • Référence: NIST Technical Note 1297, Guidelines for Evaluating and Expressing the Uncertainty of NIST Measurement Results, 1994.
  • Référence: IEC 62303, Radiation protection instrumentation—Equipment for monitoring airborne tritium.
  • Référence: DOE/EH-0173T, Environmental Regulatory Guide for Radiological Effluent Monitoring and Environmental Surveillance.
  • Référence: IEC 62706, Radiation protection instrumentation—Environmental, electromagnetic and mechanical performance requirements.
  • Référence: ISO 11929, Determination of the characteristic limits (decision threshold, detection limit and limits of the confidence interval) for measurements of ionizing radiation—Fundamentals and application.
  • Référence: NIST SP 800-82, Guide to Industrial Control Systems (ICS) Security, Sept. 2008.
  • Référence: ANSI/AARST MS-PC, Performance Specifications for Instrumentation Systems Designed to Measure Radon Gas in Air.
  • Référence: IEC 60761, Equipment for Continuous Monitoring of Radioactivity in Gaseous Effluents—Part 1: General requirements; Part 2: Specific requirements for radioactive aerosol monitors including transuranic aerosols; Part 3: Specific requirements for radioactive noble gas monitors; Part 4: Specific requirements for radioactive iodine monitors; Part 5: Specific requirements for tritium monitors.
  • Référence: ISO 2889, Sampling airborne radioactive materials from the stacks and ducts of nuclear facilities.
  • Référence: ANSI/HPS N13.1, Sampling and Monitoring Releases of Airborne Radioactive Substances from the Stack and Ducts of Nuclear Facilities.
  • Référence: USNRC Regulatory Guide 1.180, Guidelines for Evaluating Electromagnetic and Radio-Frequency Interface in Safety-Related Instrumentation and Control Systems.
  • Référence: NIST SP 800-53, Recommended Security Controls and Assessment Procedures for Federal Information Systems and Organizations.
  • Référence: IEC 62302, Radiation protection instrumentation—Equipment for sampling and monitoring radioactive noble gases.
  • Référence: NIST SP 800-37, Guide for Applying the Risk Management Framework to Federal Information Systems: a Security Life Cycle Approach, Rev. 1, 2014.
  • Référence: Code of Federal Regulations Title 10 Part 20 (10 CFR 20), Standards for Protection against Radiation.
  • Référence: ILAC G24, Guidelines for the determination of calibration intervals of measuring instruments.
  • Référence: IAEA Safety Glossary, Terminology Used in Nuclear Safety and Radiation Protection.