iTeh StandardsiTeh Standards
EURUSD
Your shopping cart is empty.
ISO

ISO 15382:2015

(Main)

Radiological protection — Procedures for monitoring the dose to the lens of the eye, the skin and the extremities

Radiological protection — Procedures for monitoring the dose to the lens of the eye, the skin and the extremities

ISO 15382:2015 provides procedures for monitoring the dose to the skin, the extremities, and the lens of the eye. It gives guidance on how to decide if such dosemeters are needed and to ensure that individual monitoring is appropriate to the nature of the exposure, taking practical considerations into account. National regulations, if they exist, provide requirements that need to be followed. ISO 15382:2015 specifies procedures for individual monitoring of radiation exposure of the skin, extremities (hands, fingers, wrists, forearms, feet and ankles), and lens of the eye in planned exposure situations. It covers practices which involve a risk of exposure to photons in the range of 8 keV to 10 MeV and electrons and positrons in the range of 60 keV to 10 MeV. ISO 15382:2015 gives guidance for the design of a monitoring program to ensure compliance with legal individual dose limits. It refers to the appropriate operational dose quantities, and it gives guidance on the type and frequency of individual monitoring and the type and positioning of the dosemeter. Finally, different approaches to assess and analyse skin, extremity, and lens of the eye doses are given. It is not in the scope of this International Standard to consider exposure due to alpha or neutron radiation fields.

Radioprotection — Procédures pour la surveillance des doses au cristallin, à la peau et aux extrémités

ISO 15382:2015 fournit des procédures de surveillance des doses à la peau, aux extrémités et au cristallin. Elle fournit des recommandations pour déterminer si des dosimètres sont nécessaires et s'assurer que la surveillance individuelle est adaptée à la nature de l'exposition, en prenant en compte les aspects pratiques. Lorsque des réglementations nationales existent, elles stipulent des exigences qui doivent également être respectées. ISO 15382:2015 spécifie des procédures de surveillance individuelle de l'exposition aux rayonnements de la peau, des extrémités (mains, doigts, poignets, avant-bras, pieds et chevilles) et du cristallin dans les situations d'exposition planifiées. Elle concerne les pratiques impliquant un risque d'exposition à des photons dont l'énergie est comprise entre 8 keV et 10 MeV et à des électrons et positrons dont l'énergie est comprise entre 60 keV et 10 MeV. ISO 15382:2015 fournit des lignes directrices pour la conception d'un programme de surveillance permettant de s'assurer du respect des limites légales de dose individuelle. Elle se rapporte aux grandeurs dosimétriques opérationnelles appropriées et fournit des recommandations sur le type et la fréquence de surveillance individuelle ainsi que sur le type et l'emplacement du dosimètre. Elle décrit enfin différentes méthodes permettant d'évaluer et d'analyser les doses à la peau, aux extrémités et au cristallin. L'exposition due à des champs de rayonnements alpha ou neutroniques ne relève pas du domaine d'application de la présente Norme internationale.

General Information

Status
Published
Publication Date
18-Nov-2015
ICS
13.280 - Radiation protection
Technical Committee
ISO/TC 85/SC 2 - Radiological protection
Drafting Committee
ISO/TC 85/SC 2/WG 19 - Individual monitoring of external radiation
Current Stage
9599 - Withdrawal of International Standard
Start Date
20-Aug-2025
Completion Date
23-Aug-2025
Ref Project

Relations

Revised
ISO 15382:2025 - Radiological protection — Procedures for monitoring the dose to the lens of the eye, the skin and the extremities
Effective Date
06-Jun-2022
Revises
ISO 15382:2002 - Nuclear energy — Radiationprotection — Procedure for radiation protection monitoring in nuclear installations for external exposure to weakly penetrating radiation, especially to beta radiation
Effective Date
23-Feb-2012

Buy Standard

ISO 15382:2015 - Radiological protection -- Procedures for monitoring the dose to the lens of the eye, the skin and the extremitiesISO 15382:2015 - Radiological protection -- Procedures for monitoring the dose to the lens of the eye, the skin and the extremities
PreviousNext
Standard
ISO 15382:2015 - Radiological protection -- Procedures for monitoring the dose to the lens of the eye, the skin and the extremities
English language
27 pages
sale 15% off
Preview
sale 15% off
Preview
ISO 15382:2015 - Radioprotection -- Procédures pour la surveillance des doses au cristallin, à la peau et aux extrémitésISO 15382:2015 - Radioprotection -- Procédures pour la surveillance des doses au cristallin, à la peau et aux extrémités
PreviousNext
Standard
ISO 15382:2015 - Radioprotection -- Procédures pour la surveillance des doses au cristallin, à la peau et aux extrémités
French language
28 pages
sale 15% off
Preview
sale 15% off
Preview

Standards Content (Sample)


INTERNATIONAL ISO
STANDARD 15382
Second edition
2015-12-01
Radiological protection — Procedures
for monitoring the dose to the lens of
the eye, the skin and the extremities
Radioprotection — Procédures pour la surveillance des doses au
cristallin, à la peau et aux extrémités
Reference number
©
ISO 2015
© ISO 2015, Published in Switzerland
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized otherwise in any form
or by any means, electronic or mechanical, including photocopying, or posting on the internet or an intranet, without prior
written permission. Permission can be requested from either ISO at the address below or ISO’s member body in the country of
the requester.
ISO copyright office
Ch. de Blandonnet 8 • CP 401
CH-1214 Vernier, Geneva, Switzerland
Tel. +41 22 749 01 11
Fax +41 22 749 09 47
copyright@iso.org
www.iso.org
ii © ISO 2015 – All rights reserved

Contents Page
Foreword .iv
Introduction .v
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 2
4 Individual monitoring . 2
4.1 Quantities . 2
4.2 Dose limits and monitoring levels . 2
4.3 Monitoring period . 3
4.4 Extremity, skin and lens of the eye monitoring . 3
4.5 Uncertainties . 3
4.6 Characteristics of radiation fields . 4
5 Assessment of dose levels prior to routine monitoring . 4
5.1 General . 4
5.2 Indications from workplace measurements . 4
5.3 Indications from whole body dosimetry . 5
5.4 Indications from literature data . 5
5.5 Indications from simulations . 5
5.6 Indications from confirmatory measurements . 5
6 Personal dosimetry. 6
6.1 Extremity and skin dosimetry . 6
6.1.1 Locations to monitor . 6
6.1.2 Types of dosemeters . 6
6.1.3 Technical specifications of dosemeters . 7
6.1.4 Application of correction factors . 7
6.2 Monitoring of the lens of the eye . 7
6.2.1 Locations to monitor . 7
6.2.2 Types of dosemeters . 8
6.2.3 Technical specifications of dosemeters . 8
6.2.4 Application of correction factors . 8
7 Interpretation and management of the results . 9
7.1 Analyses of results . 9
7.2 Optimization . 9
7.3 Registration and documentation . 9
8 Special cases . 9
8.1 Contamination . 9
8.1.1 General. 9
8.1.2 Estimation of dose to the skin or the lens of the eye from contamination .10
8.1.3 Estimation of dose to the skin or to the eye lens from hot particles .10
8.1.4 Estimation of dose to the skin or to the lens of the eye from contamination
on protective clothing .11
8.2 Estimation of dose from exposure to radioactivity in the air .11
8.3 Need to correct estimated doses due to contamination of dosemeters .11
Annex A (normative) Technical specifications of dosemeters .13
Annex B (informative) Monitoring the dose to the lens of the eye .14
Annex C (informative) Special considerations in the medical sector .18
Annex D (informative) Special considerations in nuclear power plants.21
Bibliography .25
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www.iso.org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www.iso.org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation on the meaning of ISO specific terms and expressions related to conformity
assessment, as well as information about ISO’s adherence to the WTO principles in the Technical
Barriers to Trade (TBT) see the following URL: Foreword - Supplementary information
The committee responsible for this document is ISO/TC 85, Nuclear energy, nuclear technologies and
radiological protection, Subcommittee SC 2, Radiological protection.
This second edition cancels and replaces the first edition (ISO 15382:2002), which has been technically
revised. The main changes are the addition of procedures for monitoring the dose to the lens of the eye.
iv © ISO 2015 – All rights reserved

Introduction
The human body has to be protected from effects of ionizing radiation. The stochastic effects are
covered by the limit on the effective dose while tissue reactions (deterministic effects) are covered
by the dose limits for specific organs. The human skin has to be protected from tissue reactions, like
erythema and ulceration. For the lens of the eye, there is the risk of radiation induced opacities and
cataract at elevated exposures. To protect the skin of the whole body, the extremities, and the lens
of the eye, separate dose limits are recommended by the International Commission on Radiological
Protection (ICRP). These separate dose limits are needed because, in case of localized exposures, the
organ doses to the skin and the lens of the eye could exceed these limits even if the effective doses were
lower than the limit.
Specific dosimetry is needed to monitor these doses and to assess compliance with applicable limits.
There are some situations where the correct assessment of the exposure of the skin, extremities, and
lens of the eye can be important. In the nuclear sector, there can be exposure due to weakly penetrating
radiation caused by unshielded open radioactive sources, or by work in glove boxes. These types of
exposure can occur, in particular, in connection with contamination. Exposure to weakly penetrating
radiation from radioactive noble gases in room air also has to be considered. In the medical field, doses
to extremities and doses to the lens of the eye can be important during interventional procedures and
in nuclear medicine.
Monitoring the extremities and the lens of the eye is not always straightforward, and many practical
problems arise for the application of monitoring in the workplace. As a result, monitoring is often not
done as it should be, or not done at all. This International Standard provides guidance on how and when
this monitoring should be done, for all the different types of workplace fields.
This International Standard is directed to all who are involved in the dosimetry of the skin, extremities,
and the lens of the eye, like for example, radiation protection officers, regulators, workers, dosimetry
services, etc.
INTERNATIONAL STANDARD ISO 15382:2015(E)
Radiological protection — Procedures for monitoring the
dose to the lens of the eye, the skin and the extremities
1 Scope
This International Standard provides procedures for monitoring the dose to the skin, the extremities,
and the lens of the eye. It gives guidance on how to decide if such dosemeters are needed and to ensure
that individual monitoring is appropriate to the nature of the exposure, taking practical considerations
into account. National regulations, if the
...


NORME ISO
INTERNATIONALE 15382
Deuxième édition
2015-12-01
Radioprotection — Procédures pour la
surveillance des doses au cristallin, à
la peau et aux extrémités
Radiological protection — Procedures for monitoring the dose to the
lens of the eye, the skin and the extremities
Numéro de référence
©
ISO 2015
DOCUMENT PROTÉGÉ PAR COPYRIGHT
© ISO 2015, Publié en Suisse
Droits de reproduction réservés. Sauf indication contraire, aucune partie de cette publication ne peut être reproduite ni utilisée
sous quelque forme que ce soit et par aucun procédé, électronique ou mécanique, y compris la photocopie, l’affichage sur
l’internet ou sur un Intranet, sans autorisation écrite préalable. Les demandes d’autorisation peuvent être adressées à l’ISO à
l’adresse ci-après ou au comité membre de l’ISO dans le pays du demandeur.
ISO copyright office
Ch. de Blandonnet 8 • CP 401
CH-1214 Vernier, Geneva, Switzerland
Tel. +41 22 749 01 11
Fax +41 22 749 09 47
copyright@iso.org
www.iso.org
ii © ISO 2015 – Tous droits réservés

Sommaire Page
Avant-propos .iv
Introduction .v
1 Domaine d’application . 1
2 Références normatives . 1
3 Termes et définitions . 2
4 Surveillance individuelle . 2
4.1 Grandeurs . 2
4.2 Limites de dose et niveaux de surveillance . 2
4.3 Période de surveillance . 3
4.4 Surveillance des extrémités, de la peau et du cristallin . 3
4.5 Incertitudes . 3
4.6 Caractéristiques des champs de rayonnement . 4
5 Évaluation des niveaux de dose avant une surveillance de routine .5
5.1 Généralités . 5
5.2 Indications obtenues par des mesurages sur le lieu de travail . 5
5.3 Indications obtenues par dosimétrie du corps entier . 5
5.4 Indications obtenues à partir de données documentaires. 6
5.5 Indications obtenues par simulations . 6
5.6 Indications obtenues par des mesurages de contrôle . 6
6 Dosimétrie individuelle . 6
6.1 Dosimétrie des extrémités et de la peau . 6
6.1.1 Emplacements à surveiller . 6
6.1.2 Types de dosimètres . 7
6.1.3 Spécifications techniques des dosimètres . 8
6.1.4 Application de facteurs de correction . 8
6.2 Surveillance du cristallin . 8
6.2.1 Emplacements à surveiller . 8
6.2.2 Types de dosimètres . 9
6.2.3 Spécifications techniques des dosimètres . 9
6.2.4 Application de facteurs de correction . 9
7 Interprétation et gestion des résultats .10
7.1 Analyse des résultats .10
7.2 Optimisation .10
7.3 Enregistrement et documentation .10
8 Cas particuliers .10
8.1 Contamination .10
8.1.1 Généralités .10
8.1.2 Estimation de la dose à la peau ou au cristallin due à une contamination .11
8.1.3 Estimation de la dose à la peau ou au cristallin due à des particules chaudes .11
8.1.4 Estimation de la dose à la peau ou au cristallin due à une contamination
des vêtements de protection .12
8.2 Estimation de la dose due à une exposition à la radioactivité dans l’air.12
8.3 Nécessité de corriger les doses estimées en cas de contamination des dosimètres .13
Annexe A (normative) Spécifications techniques des dosimètres .14
Annexe B (informative) Pratique pour surveiller la dose au cristallin .15
Annexe C (informative) Considérations particulières dans le secteur médical .19
Annexe D (informative) Considérations particulières dans les centrales nucléaires .22
Bibliographie .26
Avant-propos
L’ISO (Organisation internationale de normalisation) est une fédération mondiale d’organismes
nationaux de normalisation (comités membres de l’ISO). L’élaboration des Normes internationales est
en général confiée aux comités techniques de l’ISO. Chaque comité membre intéressé par une étude
a le droit de faire partie du comité technique créé à cet effet. Les organisations internationales,
gouvernementales et non gouvernementales, en liaison avec l’ISO participent également aux travaux.
L’ISO collabore étroitement avec la Commission électrotechnique internationale (IEC) en ce qui
concerne la normalisation électrotechnique.
Les procédures utilisées pour élaborer le présent document et celles destinées à sa mise à jour sont
décrites dans les Directives ISO/IEC, Partie 1. Il convient, en particulier de prendre note des différents
critères d’approbation requis pour les différents types de documents ISO. Le présent document a été
rédigé conformément aux règles de rédaction données dans les Directives ISO/IEC, Partie 2 (voir www.
iso.org/directives).
L’attention est appelée sur le fait que certains des éléments du présent document peuvent faire l’objet de
droits de propriété intellectuelle ou de droits analogues. L’ISO ne saurait être tenue pour responsable
de ne pas avoir identifié de tels droits de propriété et averti de leur existence. Les détails concernant
les références aux droits de propriété intellectuelle ou autres droits analogues identifiés lors de
l’élaboration du document sont indiqués dans l’Introduction et/ou dans la liste des déclarations de
brevets reçues par l’ISO (voir www.iso.org/brevets).
Les appellations commerciales éventuellement mentionnées dans le présent document sont données
pour information, par souci de commodité, à l’intention des utilisateurs et ne sauraient constituer
un engagement.
Pour une explication de la signification des termes et expressions spécifiques de l’ISO liés à
l’évaluation de la conformité, ou pour toute information au sujet de l’adhésion de l’ISO aux principes
de l’OMC concernant les obstacles techniques au commerce (OTC), voir le lien suivant: Avant-propos —
Informations supplémentaires.
Le comité chargé de l’élaboration du présent document est l’ISO/TC 85, Énergie nucléaire, technologies
nucléaires, et radioprotection, sous-comité SC 2, Radioprotection.
Cette deuxième édition annule et remplace la première édition (ISO 15382:2002), qui a fait l’objet d’une
révision technique. Les principales modifications sont l’ajout de procédures concernant la surveillance
des doses au cristallin.
iv © ISO 2015 – Tous droits réservés

Introduction
Le corps humain doit être protégé contre les effets des rayonnements ionisants. Les effets stochastiques
sont couverts par la limite de la dose efficace alors que les réactions tissulaires (effets déterministes)
sont couvertes par les limites de dose pour des organes spécifiques. La peau humaine doit être protégée
contre les réactions tissulaires, telles que l’érythème et l’ulcération. Pour le cristallin, il existe un
risque d’opacités et de cataracte induites par les rayonnements en cas d’expositions élevées. Pour
protéger la peau du corps entier, les extrémités ainsi que le cristallin, des limites de dose distinctes
sont recommandées par la Commission internationale de protection radiologique (CIPR). Ces limites de
dose distinctes sont nécessaires car, en cas d’expositions localisées, les doses de l’organe à la peau et au
cristallin peuvent dépasser ces limites, même si les doses efficaces sont inférieures à la limite.
Une dosimétrie spécifique est nécessaire pour surveiller ces doses et évaluer la conformité aux limites
applicables. Dans certaines situations, l’évaluation précise des expositions de la peau, des extrémités
et du cristallin peut être importante. Dans le secteur nucléaire, il peut y avoir une exposition à des
rayonnements faiblement pénétrants causée par des sources radioactives non scellées ou par des
travaux avec des boîtes à gants. Ces types d’exposition peuvent notamment se produire en présence
d’une contamination. L’exposition au rayonnement faiblement pénétrant de gaz rares radioactifs
présents dans l’air ambiant doit aussi être considérée. Dans le domaine médical, les doses aux
extrémités et les doses au cristallin peuvent être importantes durant les procédures interventionnelles
et en médecine nucléaire.
La surveillance des extrémités et du cristallin n’est pas toujours simple et de nombreux problèmes
pratiques se posent pour la mise en place d’une surveillance sur le lieu de travail. De ce fait, la
surveillance n’est souvent pas mise en place comme elle le devrait ou n’est pas mise en place du tout. La
présente Norme internationale fournit des recommandations concernant la manière et le moment où il
convient d’effectuer cette surveillance, pour les différents types de champs sur les lieux de travail.
La présente Norme internationale s’adresse à tous ceux qui sont impliqués dans le domaine de la
dosimétrie de la peau, des extrémités et du cristallin, comme, par exemple, les responsables chargés de
la radioprotection, de la réglementation, les travailleurs, les services de dosimétrie, etc.
NORME INTERNATIONALE ISO 15382:2015(F)
Radioprotection — Procédures pour la surveillance de
...

Questions, Comments and Discussion

Ask us and Technical Secretary will try to provide an answer. You can facilitate discussion about the standard in here.

This May Also Interest You

ISO
ISO 15382:2025(Main)
Radiological protection — Procedures for monitoring the dose to the lens of the eye, the skin and the extremities

This document provides procedures for monitoring the dose to the skin, the extremities, and the lens of the eye. It gives guidance on how to decide if such dosemeters are needed and to ensure that individual monitoring is appropriate to the nature of the exposure, taking practical considerations into account. This document specifies procedures for individual monitoring of radiation exposure of the skin of the body, extremities (skin of the hands, fingers, wrists, forearms including elbow, lower leg including patella, feet and ankles), and lens of the eye in planned exposure situations. It covers practices which involve a risk of exposure to photons in the range of 8 keV to 10 MeV, electrons and positrons in the range of 0,07 MeV to 1,2 MeV mean beta energies being equivalent to 0,22 MeV and 3,6 MeV beta maximum energy - in accordance to the ISO 6980 series, and neutrons in the range of thermal to 20 MeV. This document gives guidance for the design of a monitoring programme to ensure compliance with legal individual dose limits. It refers to the appropriate operational dose quantities, and it gives guidance on the type and frequency of individual monitoring and the type and positioning of the dosemeter. Finally, different approaches to assess and analyse skin, extremity, and lens of the eye doses are given. It is not in the scope of this document to consider exposure due to alpha radiation fields. NOTE 1 The requirements for the monitoring of the occupational exposure may be given in national regulations. NOTE 2 Dose to the lens of the eye due to intake of tritium is not in the scope of this document. Moreover, the situation of the workers that work in contaminated atmosphere and can have alpha and/or radon eye lens dose is also not in the scope.

  • Standard
    35 pages
    English language
    sale 15% off
  • Standard
    38 pages
    French language
    sale 15% off
  • Draft
    35 pages
    English language
    sale 15% off
  • Draft
    35 pages
    English language
    sale 15% off
  • Draft
    40 pages
    French language
    sale 15% off
ISO
ISO 20553:2025(Main)
Radiation protection — Monitoring of workers occupationally exposed to a risk of internal contamination with radioactive material

This document specifies the minimum requirements for the design of programmes to monitor workers exposed to the risk of internal contamination by radioactive material and establishes principles for the development of compatible goals and requirements for monitoring programmes. This document specifies the a) purposes of monitoring and monitoring programmes, b) description of the different categories of monitoring programmes, c) quantitative criteria for conducting monitoring programmes, d) suitable monitoring methods and criteria for their selection, e) information that has to be collected for the design of a monitoring programme, f) general requirements for monitoring programmes (e.g. detection limits, tolerated uncertainties), g) frequencies of measurements calculated using the ICRP Occupational Intakes of Radionuclides (OIR) series, h) individual monitoring in specific cases (intake of actinides, intake via a wound and intake through the intact skin), i) quality assurance, and j) documentation, reporting and record-keeping. This document does not apply to — the monitoring of exposure to radon and its radioactive decay products, — detailed descriptions of measuring methods and techniques, — detailed procedures for in vivo measurements and in vitro analysis, — interpretation of measurements results in terms of dose, — biokinetic data and mathematical models for converting measured activities into absorbed dose, equivalent dose and effective dose, — the investigation of the causes or implications of an exposure or intake.

  • Standard
    27 pages
    English language
    sale 15% off
  • Standard
    30 pages
    French language
    sale 15% off
ISO
ISO 8690:2024(Main)
Measurement of radioactivity — Gamma ray and beta emitting radionuclides — Test method to assess the ease of decontamination of surface materials

This document applies to the testing of surfaces that may become contaminated by radioactive materials. The ease of decontamination is a property of a surface and an important criterion for selecting surface materials used in the nuclear industry, interim storage or disposal facilities from which contamination can be removed easily and rapidly without damaging the surface. The test described in this document is a rapid laboratory-based method to compare the ease of decontamination of different surface materials. The results from the test can be one parameter to take into account when selecting surface coatings such as varnish or impervious layers such as ceramics and other surfaces. The radionuclides used in this test are those commonly found in the nuclear industry (137Cs, 134Cs and 60Co) in aqueous form. The test can also be adopted for use with other radionuclides and other chemical forms, depending on the customer requirements, if the solutions are chemically stable and do not corrode the test specimen. The test does not measure the ease of decontamination of the surface materials in practical use, as this depends on the radionuclide(s) present, their chemical form, the duration of exposure to the contaminant and the environmental conditions amongst other factors. The test method is not intended to describe general decontamination procedures or to assess the efficiency of decontamination procedures (see ISO 7503-1 to ISO 7503-3). The test method is not suitable for use of radiochemicals if the radionuclide emits low energy gamma rays or beta particles that are readily attenuated in the surface.

  • Standard
    34 pages
    English language
    sale 15% off
  • Standard
    34 pages
    French language
    sale 15% off
ISO
ISO 14146:2024(Main)
Radiological protection — Criteria and performance limits for the periodic evaluation of dosimetry services for external radiation

This document specifies the dosimetric and organizational criteria and the test procedures to be used for the periodic verification of the performance of dosimetry services supplying personal and/or area, i.e. workplace and/or environmental, dosemeters used for individual (personal) and/or area, i.e. workplace and/or environmental monitoring. NOTE The quality of a supplier of a dosimetry service depends on both the characteristics of the approved (type‑tested) dosimetry system and the training and experience of the staff, together with the calibration procedures and quality assurance programmes. The performance evaluation according to this document can be carried out by a dosimetry service to demonstrate the fulfilment of specified performance requirements. The irradiation qualities used in this document are representative for exposure situations that are expected or mimic workplace fields from the radiological activities being monitored using the dosemeters from the services. This document applies to personal and area dosemeters for the assessment of external photon radiation with a fluence-weighted mean energy between 8 keV and 10 MeV, beta radiation with a fluence-weighted mean energy between 60 keV and 1,2 MeV, and neutron radiation with a fluence-weighted mean energy between 25,3 meV, i.e. thermal neutrons with a Maxwellian energy distribution with kT = 25,3 meV, and 200 MeV. It covers all types of personal and area dosemeters needing laboratory processing (e.g. thermoluminescent, optically stimulated luminescence, radiophotoluminescent, track detectors or photographic-film dosemeters) and involving continuous measurements or measurements repeated regularly at fixed time intervals (e.g. several weeks, one month). Active direct reading as well as semi-passive or hybrid dosemeters, such as direct ion storage (DIS) or silicon photomultiplier (SiPM) dosemeters, for dose measurement, can also be treated according to this document. Then, they are treated as if they were passive, i.e. the dosimetry service reads their indicated values and reports them to the evaluation organization. In this document, the corrected indicated (corrected indication) value is the one given by the dosimetry systems as the final result of the evaluation algorithm (for example display of the software, printout) in units of dose equivalent (Sv). Environmental dosemeters usually indicate the quantity H*(10) but they can, in addition or alternatively, indicate the quantity H'(3), H'(0,07), air kerma, Ka, or absorbed dose, D. All these dosemeters can also be treated according to this document. If Ka or D is indicated (in Gy) the dose values in this document stated in Sv shall then be interpreted as equivalent values in Gy.

  • Standard
    19 pages
    English language
    sale 15% off
  • Standard
    20 pages
    French language
    sale 15% off
ISO
ISO 16646:2024(Main)
Fusion installations — Criteria for the design and operation of confinement and ventilation systems of tritium fusion facilities and fusion fuel handling facilities

This document specifies the applicable requirements related to the design and the operation of confinement and ventilation systems for fusion facilities for tritium fuels and tritium fuel handling facilities specific for fusion applications for peaceful purposes using high tritium inventories, as well as for their specialized buildings such as hot cells, examination laboratories, emergency management centres, radioactive waste treatment and storage facilities. In most countries, a tritium quantity is declared as high for tritium inventories higher than a range of 10 g to 100 g. In the tritium fusion facilities in the scope of this document, the tritium inventory is deemed to be higher than this range for the whole site. This document applies especially to confinement and ventilation systems that ensure the safety function of nuclear facilities involved in nuclear fusion with the goal to protect the workers, the public and the environment from the dissemination of radioactive contamination originating from the operation of these installations, and in particular from airborne tritium contamination with adequate confinement systems. The types of confinement systems for other facilities are covered by ISO 26802 for fission nuclear reactors, by ISO 17873 for facilities other than fission nuclear reactors and by ISO 16647 for nuclear worksite and for nuclear installations under decommissioning. The facilities covered by these three standards, notably ISO 17873, include tritium as a radioactive material among the ones to be confined, but tritium is not their driver of the risks for workers and for members of the public. Nevertheless, the tritium quantities and risks from fusion facilities create specificities for a specific standard (e.g. in fusion facilities, tritium is the driver of routine and accident consequences). Therefore, the scope of this document does not cover the other facilities involved in tritium releases (ISO 17873, ISO 16647 and ISO 26802), even though these other facilities create tritium releases (e.g. non-reactor fission facilities, tritium laboratories, tritium removal facilities from fission plants, tritium defence facilities).

  • Standard
    80 pages
    English language
    sale 15% off
  • Standard
    89 pages
    French language
    sale 15% off
ISO
ISO 17099:2024(Main)
Radiological protection — Performance criteria for laboratories using the cytokinesis-block micronucleus (CBMN) assay in peripheral blood lymphocytes for biological dosimetry

This document gives guidance on a) confidentiality of personal information for the customer and the laboratory, b) laboratory safety requirements, c) calibration sources and calibration dose ranges useful for establishing the reference dose-response curves that contribute to the dose estimation from CBMN assay yields and the detection limit, d) performance of blood collection, culturing, harvesting, and sample preparation for CBMN assay scoring, e) scoring criteria, f) conversion of micronucleus frequency in BNCs into an estimate of absorbed dose, g) reporting of results, h) quality assurance and quality control, and i) informative annexes containing sample instructions for customers, sample questionnaire, a microscope scoring data sheet, and a sample report. This document excludes methods for automated scoring of CBMN.

  • Standard
    35 pages
    English language
    sale 15% off
  • Standard
    38 pages
    French language
    sale 15% off
ISO
ISO 24434:2024(Main)
Radiological protection — Radiological monitoring for emergency workers and population following nuclear/radiological incidents — General principles

This document presents general principles for preparedness to conduct individual contamination screening, triage, monitoring and assessing radiation doses received by people exposed during and/or in the aftermath of a nuclear or major radiological incident. The document mainly focuses on the early response phase, which requires rapid actions to be undertaken for achieving the goals in support of, and according to, national or international guidelines on emergency response. It addresses general requirements for — members of the public, this includes adults, vulnerable populations (such as children and pregnant women) and people with special needs (such as the elderly and disabled), and — emergency workers. This document provides general procedures for screening, triage and monitoring these two categories of people. It deals with individual monitoring for potential external contamination, internal and external exposures and dose assessment. It also gives principles for organizing and managing a population screening centre and for registering and reporting the results of individual monitoring. This document is applicable to most exposure situations following a nuclear or major radiological incident affecting a large number of people, including: — significant release of radioactive materials (e.g. from a facility or nuclear power plant, during transportation); — radiological dispersal device (RDD); — improvised nuclear device (IND); — nuclear weapon. Radiological incidents for which there is no release of radioactive material in the environment but only external exposures (e.g. linked to a Radiation Exposure Device (RED)) are outside the scope of this document[1]. However, some information given by this document may be of interest for this type of event. The aim of the document is to ensure that the appropriate parties are prepared in advance. This document advises how to obtain and collect data quickly and accurately in order to inform decision makers. It does not specify the parties or individuals who are responsible for undertaking the actions. This document is intended to give guidance to those in charge of monitoring and assessing doses received by populations in emergency exposure situations involving a large number of people potentially subject to internal/external contamination (and subsequent radiation doses). It can also serve as guidance to regulatory bodies. [1] Incidents resulting from RED exposure are excluded from consideration in this document because they do not result in contamination that would be detected by a portal monitor or handheld device. Identification of victims with only potential external exposure are determined by means such as evaluation of clinical signs and symptoms, biodosimetry, EPR, etc.

  • Standard
    82 pages
    English language
    sale 15% off
  • Standard
    88 pages
    French language
    sale 15% off
  • Standard
    88 pages
    French language
    sale 15% off
ISO
ISO 24426:2023(Main)
Radiological protection — Content of input data for the statistical analysis of dose records of individuals monitored for occupational exposure to ionizing radiation

The objective of this document is to promote the harmonization of data and information reporting formats in order to provide the basis for the evaluation of occupational exposure with a view to allow for benchmarking capacity at the user level, technical review level, country level and global level (such as UNSCEAR) database or register on occupational exposure. Activity sectors and occupations (where employees are classified as occupationally exposed workers) that is included in this database or register as well as dose types and different values of interest concerning occupational exposure are described as follows. A typical national dose register (NDR): — contains personal, employment, and dosimetric data of occupational employment and wage statistics (OEWs) in the country. — assists national authorities in controlling and safekeeping of the occupational doses and to allow statistical evaluations (e.g., dose trends to answer requests from regulators and others). — assists in regulatory control by notifying regulatory authorities of overexposures within their jurisdiction and the licensee in their respective facility. — contributes to health research and to the scientific knowledge on risks from occupational exposure to ionizing radiation. — provides dose histories to individual workers and organizations for work planning and for compensation and litigation cases. All information provided by the NDR, including dose histories, may be subject to confidentiality requirements. This document is aimed at national dose registries but may be also applicable to dosimetry services that provide data to national dose registries. NOTE Such a database or register on occupational radiation dose for different sectors will, among other reasons, allow to prepare the data necessary for more global surveys, such as those undertaken by the UNSCEAR and other databases such as IAEA’s Information System on Occupational Exposure in Medicine, Industry and Research (ISEMIR), Information System on Occupational Exposure (ISOE) and the European Platform for Occupational Radiation Exposure (ESOREX‑Platform). Presently, as the formats are different, the international description of national statistics is often incomplete or inaccurate, and in the end, the comparison of data is not established yet in many countries. This standard defines a common and easily shared format to collect reliable, traceable and directly comparable data on individual and collective exposure in activity sectors and occupations as defined in a common way. This document addresses: a) a common list of activity sectors and occupations, and b) a common and easily shared format about dose types and different values of interest concerning occupational exposure in order to collect consistent and directly comparable data on individual and collective exposure.

  • Standard
    21 pages
    English language
    sale 15% off
ISO
ISO 19238:2023(Main)
Radiological protection — Performance criteria for service laboratories performing biological dosimetry by cytogenetics — Dicentric assay

This document provides criteria for quality assurance and quality control, evaluation of the performance and the accreditation of biological dosimetry by cytogenetic service laboratories using the dicentric assay performed with manual scoring. This document is applicable to a) the confidentiality of personal information, for the requestor and the service laboratory, b) the laboratory safety requirements, c) the calibration sources and calibration dose ranges useful for establishing the reference dose-response curves that contribute to the dose estimation from unstable chromosome aberration frequency and the detection limit, d) the scoring procedure for unstable chromosome aberrations used for biological dosimetry, e) the criteria for converting a measured aberration frequency into an estimate of absorbed dose, f) the reporting of results, g) the quality assurance and quality control, and h) informative annexes containing sample instructions for requestor (see Annex A), sample questionnaire (see Annex B), sample report (see Annex C), fitting of the low dose-response curve by the method of maximum likelihood and calculating the error of the dose estimate (see Annex D), odds ratio method for cases of suspected exposure to a low dose (see Annex E), a method for determining the decision threshold and detection limit (see Annex F) and sample data sheet for recording aberrations (see Annex G).

  • Standard
    39 pages
    English language
    sale 15% off
  • Standard
    41 pages
    French language
    sale 15% off
ISO
ISO 22188:2023(Main)
Monitoring for inadvertent movement and illicit trafficking of radioactive material

This document specifies methods and means of monitoring for inadvertent movement and illicit trafficking of radioactive material. It provides guidelines on the use of both stationary and portable, for example hand-held, instruments to monitor for radiation signatures from radioactive material. Emphasis is placed on the operational aspects, i.e., requirements derived for monitoring of traffic and commodities mainly at border-crossing facilities. Although the term border is used repeatedly in this document, it is meant to apply not only to international land borders but also maritime ports, airports, and similar locations where goods or individuals are being checked. This document does not specifically address the issue of detection of radioactive materials at recycling facilities, although it is recognized that transboundary movement of metals for recycling occurs, and that monitoring of scrap metals might be done at the borders of a state. This document is applicable to — regulatory bodies and other competent authorities seeking guidance on implementation of action plans to combat illicit trafficking, — law enforcement agencies, for example border guards, to obtain guidelines on recommended monitoring procedures, — equipment manufacturers in order to understand minimum requirements derived from operational necessities according to this document, and — end-users of radiation detection equipment applicable to this document.

  • Standard
    24 pages
    English language
    sale 15% off