ISO 24390:2023
International Standard
Current Edition
·
Approved on
21 November 2023
Nuclear energy — Nuclear fuel technology — Methodologies for radioactivity characterization of very low-level waste (VLLW) generated by nuclear facilities
ISO 24390:2023 Files
English
20 Pages
Current Edition
BHD
64.4
ISO 24390:2023 Scope
This document describes methodologies for radioactivity characterization of very low-level waste (VLLW) generated from the operation or decommissioning of nuclear facilities. The purpose is to differentiate VLLW from low-level radioactive solid waste and waste below clearance levels. The aim is to effectively characterize and to demonstrate that it satisfies the criteria for VLLW.
This document focuses specifically on characterization methods of radioactive solid waste. Clearance and exemption monitoring are not covered within this document. Additionally, the characterization of liquid and gaseous wastes is also excluded from this document.
Best Sellers
GSO 150-2:2013
Gulf Standard
Expiration dates for food products - Part 2 :
Voluntary expiration dates
BH GSO 150-2:2015
GSO 150-2:2013
Bahraini Standard
Expiration dates for food products - Part 2 :
Voluntary expiration dates
GSO 9:2022
Gulf Technical Regulation
Labeling of prepackaged food stuffs
BH GSO 9:2023
GSO 9:2022
Bahraini Technical Regulation
Labeling of prepackaged food stuffs
Recently Published
ISO/TR 13849-3:2026
International Standard
Safety of machinery — Safety-related parts of control systems — Part 3: Markov model-based PFH calculation
ISO/TS 23099:2026
International Standard
Large yachts — A methodologic framework to assess large yachts (30m+) on their environmental performance and credentials
ISO 11783-3:2026
International Standard
Tractors and machinery for agriculture and forestry — Serial control and communications data network — Part 3: Application layer, transport layer and network layer
ISO 13914:2026
International Standard
Soil, treated biowaste and sludge — Determination of dioxins and furans and dioxin-like polychlorinated biphenyls by gas chromatography with mass selective detection (high resolution mass spectrometry, HRMS, and tandem mass spectrometry, MS/MS)