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SIST ISO 13161:2013

Water quality - Measurement of polonium 210 activity concentration in water by alpha spectrometry

Water quality - Measurement of polonium 210 activity concentration in water by alpha spectrometry

ISO 13161:2011 specifies the measurement of 210Po activity concentration by alpha spectrometry in all kinds of natural waters.
The detection limit of this method depends on the volume of the sample, the counting time, the background count rate and the detection efficiency. In the case of drinking water, the analysis is usually carried out on the raw sample, without filtration or other pretreatment.
If suspended material has to be removed or analysed, filtration at 0,45 µm is recommended. The analysis of the insoluble fraction requires a mineralization step that is not covered by ISO 13161:2011. In this case, the measurement is made on the different phases obtained. The final activity is the sum of all the measured activity concentrations.

Qualité de l'eau - Mesurage de l'activité du polonium 210 dans l'eau par spectrométrie alpha

L'ISO 13161:2011 spécifie le mesurage de l'activité du 210Po par spectrométrie alpha dans tout type d'eau naturelle.
La limite de détection de cette méthode dépend du volume de l'échantillon, du temps de comptage, du taux de comptage du bruit de fond et du rendement de détection. Dans le cas de l'eau potable, l'analyse s'effectue généralement sur l'échantillon brut n'ayant subi ni filtration, ni prétraitement.
S'il est nécessaire de séparer les matières en suspension ou de les analyser, une filtration à 0,45 µm est recommandée. L'analyse de la fraction insoluble nécessite une étape de minéralisation qui n'est pas couverte par l'ISO 13161:2011. Dans ce cas, le mesurage est effectué sur les différentes phases obtenues. L'activité finale est la somme de toutes les activités mesurées.

Kakovost vode - Merjenje koncentracije aktivnosti polonija Po-210 v vodi z alfa spektrometrijo

Ta mednarodni standard določa merjenje koncentracije aktivnosti polonija Po-210 z alfa spektrometrijo v vseh vrstah naravnih vod. Meja detekcije te metode je odvisna od prostornine vzorca, časa štetja, stopnje štetja v ozadju in učinkovitosti zaznavanja. V primeru pitne vode se analiza običajno izvede na neobdelanem vzorcu brez filtracije ali druge predhodne obdelave. Če je treba suspendiran material odstraniti ali analizirati, se priporoča filtracija pri 0,45 µm. Za analizo netopnega deleža je potrebna faza mineralizacije, ki je ta mednarodni standard ne zajema (glej standard NF M 60-790-4[4]). V tem primeru se meritev izvede na različnih dobljenih fazah. Končna aktivnost je vsota vseh izmerjenih koncentracij aktivnosti.

General Information

Status
Withdrawn
Public Enquiry End Date
30-Jun-2012
Publication Date
26-Dec-2012
Withdrawal Date
20-Sep-2020
ICS
13.060.60 - Examination of physical properties of water
17.240 - Radiation measurements
Technical Committee
KAV - Water quality
Current Stage
9900 - Withdrawal (Adopted Project)
Start Date
18-Sep-2020
Due Date
11-Oct-2020
Completion Date
21-Sep-2020
Ref Project
ISO 13161:2011 - Water quality — Measurement of polonium 210 activity concentration in water by alpha spectrometry

Relations

Replaced By
SIST EN ISO 13161:2021 - Water quality - Polonium 210 - Test method using alpha spectrometry (ISO 13161:2020)
Effective Date
01-Jan-2021

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Standards Content (Sample)


SLOVENSKI STANDARD
01-januar-2013
Kakovost vode - Merjenje koncentracije aktivnosti polonija Po-210 v vodi z alfa
spektrometrijo
Water quality - Measurement of polonium 210 activity concentration in water by alpha
spectrometry
Qualité de l'eau - Mesurage de l'activité du polonium 210 dans l'eau par spectrométrie
alpha
Ta slovenski standard je istoveten z: ISO 13161:2011
ICS:
13.060.60 Preiskava fizikalnih lastnosti Examination of physical
vode properties of water
17.240 Merjenje sevanja Radiation measurements
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

INTERNATIONAL ISO
STANDARD 13161
First edition
2011-10-01
Water quality — Measurement of
polonium 210 activity concentration in
water by alpha spectrometry
Qualité de l’eau — Mesurage de l’activité du polonium 210 dans l’eau
par spectrométrie alpha
Reference number
©
ISO 2011
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by any means,
electronic or mechanical, including photocopying and microfilm, without permission in writing from either ISO at the address below or ISO’s
member body in the country of the requester.
ISO copyright office
Case postale 56 • CH-1211 Geneva 20
Tel. + 41 22 749 01 11
Fax + 41 22 749 09 47
E-mail copyright@iso.org
Web www.iso.org
Published in Switzerland
ii © ISO 2011 – All rights reserved

Contents Page
Foreword . iv
Introduction . v
1 Scope . 1
2 Normative references . 1
3 Terms, definitions, symbols and units . 1
3.1 Terms and definitions . 2
3.2 Symbols, definitions and units . 2
4 Principle . 2
4.1 General . 2
4.2 Treatment . 3
4.3 Principle of alpha spectrometry . 3
5 Reagents and equipment . 3
5.1 Reagents . 3
5.2 Preparation material and treatment . 4
5.3 Alpha spectrometry measuring equipment . 4
6 Sampling and samples . 4
7 Chemical treatment and deposit process . 4
7.1 General . 4
7.2 Chemical treatment . 5
7.3 Disc cleaning . 5
7.4 Deposition phase . 5
8 Measurement by alpha spectrometry . 6
8.1 General . 6
8.2 Quality control . 6
8.3 Measurement . 6
9 Expression of results . 6
9.1 General . 6
9.2 Total yield . 7
9.3 Activity concentration of Po in the sample . 7
9.4 Combined uncertainties . 8
9.5 Decision threshold . 8
9.6 Detection limit . 8
9.7 Confidence limits . 9
10 Test report . 9
Annex A (informative) Cell deposit examples . 11
Annex B (informative) Spectrum examples .13
Bibliography .15
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.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International Standards
adopted by the technical committees are circulated to the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
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.
ISO 13161 was prepared by Technical Committee ISO/TC 147, Water quality, Subcommittee SC 3,
Radiological methods.
iv © ISO 2011 – All rights reserved

Introduction
There are different techniques to measure Po activity concentration in water: alpha spectrometry, liquid
scintillation counting, alpha proportional counting.
This International Standard describes a method for measuring Po activity concentration in natural waters
by alpha spectrometry.
Polonium 210 ( Po) is a natural alpha-emitting radionuclide with a half-life of 138 d. It appears in the natural
238 222
chain of uranium 238 ( U) (see Figure 1). It is a long-life decay product of radon 222 ( Rn) through lead 210
( Pb) (see References [5] to [9]).
Precautions are required when manipulating radioactive materials such as polonium isotopes.
The activity concentration ranges of Po, in drinking waters for example, are generally very low, usually
�1 �1
ranging from 1 mBq l to 30 mBq l .
This International Standard is applicable to all types of water, including sea water, and usually allows the
210 �1
measurement of Po activity concentrations greater or equal to 5 mBq l .
NOTE Pb is stable.
Figure 1 — Uranium 238 and its decay products
INTERNATIONAL STANDARD ISO 13161:2011(E)
Water quality — Measurement of polonium 210 activity
concentration in water by alpha spectrometry
WARNING — Persons using this International Standard should be familiar with normal laboratory
practice. This International Standard does not purport to address all of the safety problems, if any,
associated with its use. It is the responsibility of the user to establish appropriate safety and health
practices and to ensure compliance with any national regulatory conditions.
IMPORTANT — It is absolutely essential that tests conducted according to this International Standard
be carried out by suitably trained staff.
1 Scope
This International Standard specifies the measurement of Po activity concentration by alpha spectrometry
in all kinds of natural waters.
The detection limit of this method depends on the volume of the sample, the counting time, the background
count rate and the detection efficiency. In the case of drinking water, the analysis is usually carried out on the
raw sample, without filtration or other pretreatment.
If suspended material has to be removed or analysed, filtration at 0,45 µm is recommended. The analysis
of the insoluble fraction requires a mineralization step that is not covered by this International Standard (see
[4]
NF M 60-790-4 ). In this case, the measurement is made on the different phases obtained. The final activity
is the sum of all the measured activity concentrations.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced document
(including any amendments) applies.
ISO 3696, Water for analytical laboratory use — Specification and test methods
ISO 5667-1, Water quality — Sampling — Part 1: Guidance on the design of sampling programmes and
sampling techniques
ISO 5667-3, Water quality — Sampling — Part 3: Preservation and handling of water samples
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
ISO 80000-10, Quantities and units — Part 10: Atomic and nuclear physics
ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories
ISO/IEC Guide 98-3, Uncertainty of measurement — Part 3: Guide to the expression of uncertainty in
measurement (GUM:1995)
3 Terms, definitions, symbols and units
For the purposes of this document, the terms, definitions, symbols and abbreviations given in ISO 80000-10
and the following apply.
3.1 Terms and definitions
3.1.1
certified reference solution
solution of known concentration traceable to primary or secondary certified reference solution standards of
radioactivity
3.1.2
tracer solution
208 209
usually a secondary standard or reference material, such as Po or Po, employed to determine the
chemical yield of the analysis
3.1.3
quality control standard
radioactive source used to demonstrate that the measurement equipment employed performs within defined limits
NOTE Quality control is usually carried out by the regular measurement of a suitable radioactive source in accordance
[1] [2] [3]
with ISO 7870-1 , ISO 7870-2 , and ISO 7871 .
3.2 Symbols, definitions and units
� activity of the tracer added Bq
210 �1
c activity concentration of Po Bq l
A
* �1
decision threshold Bq l
c
A
# �1
Bq l
detection limit
c
A
 �1
Bq l
lower and upper limits of the confidence interval
cc,
AA
� chemical yield 1
c
� total yield 1
T
210 �1
� background count rate in the Po region of interest s
�1
� background count rate in the tracer region of interest s
0T
210 �1
� gross count rate of the sample in the Po region of interest s
g
�1
� gross c
...


INTERNATIONAL ISO
STANDARD 13161
First edition
2011-10-01
Water quality — Measurement of
polonium 210 activity concentration in
water by alpha spectrometry
Qualité de l’eau — Mesurage de l’activité du polonium 210 dans l’eau
par spectrométrie alpha
Reference number
©
ISO 2011
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by any means,
electronic or mechanical, including photocopying and microfilm, without permission in writing from either ISO at the address below or ISO’s
member body in the country of the requester.
ISO copyright office
Case postale 56 • CH-1211 Geneva 20
Tel. + 41 22 749 01 11
Fax + 41 22 749 09 47
E-mail copyright@iso.org
Web www.iso.org
Published in Switzerland
ii © ISO 2011 – All rights reserved

Contents Page
Foreword . iv
Introduction . v
1 Scope . 1
2 Normative references . 1
3 Terms, definitions, symbols and units . 1
3.1 Terms and definitions . 2
3.2 Symbols, definitions and units . 2
4 Principle . 2
4.1 General . 2
4.2 Treatment . 3
4.3 Principle of alpha spectrometry . 3
5 Reagents and equipment . 3
5.1 Reagents . 3
5.2 Preparation material and treatment . 4
5.3 Alpha spectrometry measuring equipment . 4
6 Sampling and samples . 4
7 Chemical treatment and deposit process . 4
7.1 General . 4
7.2 Chemical treatment . 5
7.3 Disc cleaning . 5
7.4 Deposition phase . 5
8 Measurement by alpha spectrometry . 6
8.1 General . 6
8.2 Quality control . 6
8.3 Measurement . 6
9 Expression of results . 6
9.1 General . 6
9.2 Total yield . 7
9.3 Activity concentration of Po in the sample . 7
9.4 Combined uncertainties . 8
9.5 Decision threshold . 8
9.6 Detection limit . 8
9.7 Confidence limits . 9
10 Test report . 9
Annex A (informative) Cell deposit examples . 11
Annex B (informative) Spectrum examples .13
Bibliography .15
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.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International Standards
adopted by the technical committees are circulated to the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
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.
ISO 13161 was prepared by Technical Committee ISO/TC 147, Water quality, Subcommittee SC 3,
Radiological methods.
iv © ISO 2011 – All rights reserved

Introduction
There are different techniques to measure Po activity concentration in water: alpha spectrometry, liquid
scintillation counting, alpha proportional counting.
This International Standard describes a method for measuring Po activity concentration in natural waters
by alpha spectrometry.
Polonium 210 ( Po) is a natural alpha-emitting radionuclide with a half-life of 138 d. It appears in the natural
238 222
chain of uranium 238 ( U) (see Figure 1). It is a long-life decay product of radon 222 ( Rn) through lead 210
( Pb) (see References [5] to [9]).
Precautions are required when manipulating radioactive materials such as polonium isotopes.
The activity concentration ranges of Po, in drinking waters for example, are generally very low, usually
�1 �1
ranging from 1 mBq l to 30 mBq l .
This International Standard is applicable to all types of water, including sea water, and usually allows the
210 �1
measurement of Po activity concentrations greater or equal to 5 mBq l .
NOTE Pb is stable.
Figure 1 — Uranium 238 and its decay products
INTERNATIONAL STANDARD ISO 13161:2011(E)
Water quality — Measurement of polonium 210 activity
concentration in water by alpha spectrometry
WARNING — Persons using this International Standard should be familiar with normal laboratory
practice. This International Standard does not purport to address all of the safety problems, if any,
associated with its use. It is the responsibility of the user to establish appropriate safety and health
practices and to ensure compliance with any national regulatory conditions.
IMPORTANT — It is absolutely essential that tests conducted according to this International Standard
be carried out by suitably trained staff.
1 Scope
This International Standard specifies the measurement of Po activity concentration by alpha spectrometry
in all kinds of natural waters.
The detection limit of this method depends on the volume of the sample, the counting time, the background
count rate and the detection efficiency. In the case of drinking water, the analysis is usually carried out on the
raw sample, without filtration or other pretreatment.
If suspended material has to be removed or analysed, filtration at 0,45 µm is recommended. The analysis
of the insoluble fraction requires a mineralization step that is not covered by this International Standard (see
[4]
NF M 60-790-4 ). In this case, the measurement is made on the different phases obtained. The final activity
is the sum of all the measured activity concentrations.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced document
(including any amendments) applies.
ISO 3696, Water for analytical laboratory use — Specification and test methods
ISO 5667-1, Water quality — Sampling — Part 1: Guidance on the design of sampling programmes and
sampling techniques
ISO 5667-3, Water quality — Sampling — Part 3: Preservation and handling of water samples
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
ISO 80000-10, Quantities and units — Part 10: Atomic and nuclear physics
ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories
ISO/IEC Guide 98-3, Uncertainty of measurement — Part 3: Guide to the expression of uncertainty in
measurement (GUM:1995)
3 Terms, definitions, symbols and units
For the purposes of this document, the terms, definitions, symbols and abbreviations given in ISO 80000-10
and the following apply.
3.1 Terms and definitions
3.1.1
certified reference solution
solution of known concentration traceable to primary or secondary certified reference solution standards of
radioactivity
3.1.2
tracer solution
208 209
usually a secondary standard or reference material, such as Po or Po, employed to determine the
chemical yield of the analysis
3.1.3
quality control standard
radioactive source used to demonstrate that the measurement equipment employed performs within defined limits
NOTE Quality control is usually carried out by the regular measurement of a suitable radioactive source in accordance
[1] [2] [3]
with ISO 7870-1 , ISO 7870-2 , and ISO 7871 .
3.2 Symbols, definitions and units
� activity of the tracer added Bq
210 �1
c activity concentration of Po Bq l
A
* �1
decision threshold Bq l
c
A
# �1
Bq l
detection limit
c
A
 �1
Bq l
lower and upper limits of the confidence interval
cc,
AA
� chemical yield 1
c
� total yield 1
T
210 �1
� background count rate in the Po region of interest s
�1
� background count rate in the tracer region of interest s
0T
210 �1
� gross count rate of the sample in the Po region of interest s
g
�1
� gross count rate in the tracer region of interest s
T
� background counting time s
� sample counting time s
g
�1
� expanded uncertainty calculated by � � � � �(c ) with � � 1, 2 . Bq l
A
�1
�(c ) standard uncertainty associated with the initial measurement result Bq l
A
� volume of the test sample aliquot l
� counting efficiency 1
4 Principle
4.1 General
After sampling, the test sample undergoes a treatment which leads to an extremely thin deposit of the polonium
on a metal disc, for measurement by alpha spectrometry.
2 © ISO 2011 – All rights reserved

Po has a half-life of 138,376 d � 0,002 d (see Reference [11]).
The sample shall be analysed as soon as possible to give an activity concentration on the sampling date. If
the time elapsed between sampling and measurement is long, the activity concentration measured requires
210 210
correction and it is then necessary to know the Pb and Bi activity concentrations of the sample to adjust
the Po act
...


NORME ISO
INTERNATIONALE 13161
Première édition
2011-10-01
Qualité de l’eau — Mesurage de
l’activité du polonium 210 dans l’eau par
spectrométrie alpha
Water quality — Measurement of polonium 210 activity concentration in
water by alpha spectrometry
Numéro de référence
©
ISO 2011
DOCUMENT PROTÉGÉ PAR COPYRIGHT
Droits de reproduction réservés. Sauf prescription différente, 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 et les microfilms, sans l’accord écrit
de l’ISO à l’adresse ci-après ou du comité membre de l’ISO dans le pays du demandeur.
ISO copyright office
Case postale 56 • CH-1211 Geneva 20
Tel. + 41 22 749 01 11
Fax + 41 22 749 09 47
E-mail copyright@iso.org
Web www.iso.org
Publié en Suisse
ii © ISO 2011 – Tous droits réservés

Sommaire Page
Avant-propos . iv
Introduction .v
1 Domaine d’application . 1
2 Références normatives . 1
3 Termes, définitions, symboles et unités . 1
3.1 Termes et définitions . 2
3.2 Symboles, définitions et unités . 2
4 Principe . 2
4.1 Généralités . 2
4.2 Traitement . 3
4.3 Principe de la spectrométrie alpha . 3
5 Réactifs et appareillage . 3
5.1 Réactifs . 3
5.2 Matériel de préparation et traitement . 4
5.3 Équipement de mesure par spectrométrie alpha . 4
6 Échantillonnage et échantillons . 4
7 Traitement chimique et procédé de dépôt . 4
7.1 Généralités . 4
7.2 Traitement chimique . 5
7.3 Nettoyage du disque . 5
7.4 Phase de dépôt . 5
8 Mesurage par spectrométrie alpha . 6
8.1 Généralités . 6
8.2 Contrôle de la qualité . 6
8.3 Mesurage . 6
9 Expression des résultats . 7
9.1 Généralités . 7
9.2 Rendement total . 7
9.3 Activité du Po dans l’échantillon . 7
9.4 Incertitudes combinées . 8
9.5 Seuil de décision . 8
9.6 Limite de détection . 9
9.7 Limites de l’intervalle de confiance . 9
10 Rapport d’essai . 9
Annexe A (informative) Exemples de dépôt de cellules . 11
Annexe B (informative) Exemples de spectres .13
Bibliographie .15
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 (CEI) en ce qui concerne la normalisation électrotechnique.
Les Normes internationales sont rédigées conformément aux règles données dans les Directives ISO/CEI, Partie 2.
La tâche principale des comités techniques est d’élaborer les Normes internationales. Les projets de Normes
internationales adoptés par les comités techniques sont soumis aux comités membres pour vote. Leur publication
comme Normes internationales requiert l’approbation de 75 % au moins des comités membres votants.
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.
L’ISO 13161 a été élaborée par le comité technique ISO/TC 147, Qualité de l’eau, sous-comité SC 3, Méthodes
radiologiques.
iv © ISO 2011 – Tous droits réservés

Introduction
Il existe différentes techniques de mesurage de l’activité du Po dans l’eau (spectrométrie alpha, comptage
par scintillation liquide, comptage proportionnel alpha).
La présente Norme internationale décrit une méthode de mesurage de l’activité du Po dans les eaux
naturelles par spectrométrie alpha.
Le polonium 210 ( Po) est un radionucléide émetteur alpha naturel de période égale à 138 jours. Il est présent
dans la chaîne naturelle de l’uranium 238 ( U) (voir Figure 1). Il s’agit d’un descendant à vie longue issu de
222 210
la désintégration du radon 222 ( Rn), par l’intermédiaire du plomb 210 ( Pb) (voir Références [5] à [9]).
Il est nécessaire de prendre des précautions lors de la manipulation des matériaux radioactifs tels que les
isotopes du polonium.
Les valeurs d’activité du Po, mesurées dans l’eau potable par exemple, sont généralement très faibles et
�1 �1
normalement comprises entre 1 mBq l et 30 mBq l .
La présente Norme internationale est applicable à tous les types d’eau, y compris l’eau de mer; elle permet
210 �1
normalement de mesurer une activité du Po supérieure ou égale à 5 mBq l .
NOTE Pb est stable.
Figure 1 — Uranium 238 et ses produits de désintégration
NORME INTERNATIONALE ISO 13161:2011(F)
Qualité de l’eau — Mesurage de l’activité du polonium 210 dans
l’eau par spectrométrie alpha
AVERTISSEMENT — Il convient que l’utilisateur de la présente Norme internationale connaisse bien
les pratiques courantes de laboratoire. La présente Norme internationale n’a pas pour but de traiter
tous les problèmes de sécurité qui sont, le cas échéant, liés à son utilisation. Il incombe à l’utilisateur
d’établir des pratiques appropriées en matière d’hygiène et de sécurité, et de s’assurer de la conformité
à la réglementation nationale en vigueur.
IMPORTANT — Il est absolument essentiel que les essais réalisés conformément à la présente Norme
internationale soient exécutés par un personnel ayant reçu une formation adéquate.
1 Domaine d’application
La présente Norme internationale spécifie le mesurage de l’activité du Po par spectrométrie alpha dans tout
type d’eau naturelle.
La limite de détection de cette méthode dépend du volume de l’échantillon, du temps de comptage, du taux
de comptage du bruit de fond et du rendement de détection. Dans le cas de l’eau potable, l’analyse s’effectue
généralement sur l’échantillon brut n’ayant subi ni filtration, ni prétraitement.
S’il est nécessaire de séparer les matières en suspension ou de les analyser, une filtration à 0,45 µm est
recommandée. L’analyse de la fraction insoluble nécessite une étape de minéralisation qui n’est pas couverte
[4]
par la présente Norme internationale (voir NF M60-790-4 ). Dans ce cas, le mesurage est effectué sur les
différentes phases obtenues. L’activité finale est la somme de toutes les activités mesurées.
2 Références normatives
Les documents de référence suivants sont indispensables pour l’application du présent document. Pour les
références datées, seule l’édition citée s’applique. Pour les références non datées, la dernière édition du
document de référence s’applique (y compris les éventuels amendements).
ISO 3696, Eau pour laboratoire à usage analytique — Spécification et méthodes d’essai
ISO 5667-1, Qualité de l’eau — Échantillonnage — Partie 1: Lignes directrices pour la conception des
programmes et des techniques d’échantillonnage
ISO 5667-3, Qualité de l’eau — Échantillonnage — Partie 3: Conservation et manipulation des échantillons d’eau
ISO 11929, Détermination des limites caractéristiques (seuil de décision, limite de détection et extrémités de
l’intervalle de confiance) pour mesurages de rayonnements ionisants — Principes fondamentaux et applications
ISO 80000-10, Grandeurs et unités — Partie 10: Physique atomique et nucléaire
ISO/CEI 17025, Exigences générales concernant la compétence des laboratoires d’étalonnages et d’essais
Guide ISO/CEI 98-3, Incertitude de mesure — Partie 3: Guide pour l’expression de l’incertitude de mesure
(GUM:1995)
3 Termes, définitions, symboles et unités
Pour les besoins du présent document, les termes, définitions, symboles et abréviations donnés dans
l’ISO 80000-10, ainsi que les suivants, s’appliquent.

3.1 Termes et définitions
3.1.1
solution de référence certifiée
solution de concentration connue raccordée à des solutions étalons de radioactivité certifiées primaires
ou secondaires
3.1.2
solution de traceur
208 209
habituellement, une matière étalon ou de référence secondaire, tel le Po ou le Po, utilisée pour déterminer
le rendement chimique de l’analyse
3.1.3
étalon de contrôle de la qualité
source de radioactivité utilisée pour démontrer que l’équipement de mesure utilisé fonctionne dans les limites définies
NOTE Le contrôle de la qualité s’effectue normalement par la mesure régulière d’une source de radioactivité
[1] [2] [3]
appropriée conformément à l’ISO 7870-1 , l’ISO 7870-2 et l’ISO 7871 .
3.2 Symboles, définitions et unités
� activité de traceur ajouté Bq
210 �1
c activité du Po Bq l
A
* �1
seuil de décision Bq l
c
A
# �1
Bq l
limite de détection
c
A
 �1
Bq l
limites inférieure et supérieure de l’intervalle de confiance
cc,
AA
� rendement chimique 1
c
� rendement total 1
T
210 �1
� taux de comptage du bruit de fond dans la région d’intérêt du Po s
�1
� taux de comptage du bruit de fond dans la région d’intérêt du traceur s
0T
210 �1
� taux de comptage brut de l’échantillon dans la région d’intérêt du Po s
g
�1
� taux de comptage brut dans la région d’intérêt du traceur s
T
� temps de comptage du bruit de fond s
� temps de comptage de l’échantillon s
g
�1
� incertitude élargie calculée par � � � � �(c ) avec � � 1, 2 . Bq l
A
�1
�(c ) incertitude type associée au résultat de mesurage initial Bq l
A
� volume de l’aliquote de l’échantillon pour essai l
� rendement de comptage 1
4 Principe
...


МЕЖДУНАРОДНЫЙ ISO
СТАНДАРТ 13161
Первое издание
2011-10-01
Качество воды. Измерение
концентрации активности полония 210
в воде методом альфа-спектрометрии
Water quality — Measurement of polonium 210 activity concentration in
water by alpha spectrometry
Ответственность за подготовку русской версии несёт GOST R
(Российская Федерация) в соответствии со статьёй 18.1 Устава ISO
Ссылочный номер
©
ISO 2011
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ii © ISO 2011 - Все права сохраняются

Содержание Страница
Предисловие .iv
Введение .v
1 Область применения .1
2 Нормативные ссылки .1
3 Термины, определения, обозначения и единицы.2
3.1 Термины и определения .2
3.2 Условные обозначения, определения и единицы.2
4 Принцип.3
4.1 Общие положения .3
4.2 Обработка .3
4.3 Принцип альфа-спектрометрии.3
5 Реактивы и оборудование.4
5.1 Реактивы .4
5.2 Препараты и обработка.4
5.3 Альфа-спектрометрическое измерительное оборудование.5
6 Отбор проб и образцы.5
7 Химическая обработка и процесс осаждения.5
7.1 Общие положения .5
7.2 Химическая обработка .6
7.3 Очистка диска.6
7.4 Фаза осаждения .6
8 Измерение методом альфа-спектрометрии.7
8.1 Общие положения .7
8.2 Контроль качества .7
8.3 Измерение .8
9 Выражение результатов .8
9.1 Общие положения .8
9.2 Полный выход .9
9.3 Концентрации активности Po в пробе.9
9.4 Суммарные неопределенности .9
9.5 Порог принятия решения .10
9.6 Предел обнаружения .10
9.7 Доверительные пределы.11
10 Протокол испытания.11
Приложение А (информативное) Примеры осаждения в камере .13
Приложение В (информативное) Примеры спектров .15
Библиография.17

Предисловие
Международная организация по стандартизации (ISO) является всемирной федерацией национальных
организаций по стандартизации (комитетов-членов ISO). Разработка международных стандартов
обычно осуществляется техническими комитетами ISO. Каждый комитет-член, заинтересованный в
деятельности, для которой был создан технический комитет, имеет право быть представленным в этом
комитете. Международные правительственные и неправительственные организации, имеющие связи с
ISO, также принимают участие в работах. Что касается стандартизации в области электротехники, ISO
работает в тесном сотрудничестве с Международной электротехнической комиссией (IEC).
Проекты международных стандартов разрабатываются по правилам, указанным в Директивах ISO/IEC,
Часть 2.
Главная задача технических комитетов состоит в разработке международных стандартов. Проекты
международных стандартов, принятые техническими комитетами, рассылаются комитетам-членам на
голосование. Их опубликование в качестве международных стандартов требует одобрения, по
меньшей мере, 75 % комитетов-членов, принимающих участие в голосовании.
Обращается внимание на то, что некоторые элементы данного документа могут быть объектом
патентных прав. ISO не несет ответственности за идентификацию какого-либо одного или всех таких
патентных прав.
ISO 13161 был подготовлен Техническим комитетом ISO/TC 147, Качество воды, Подкомитетом SC 3,
Радиологические методы.
iv © ISO 2011 - Все права сохраняются

Введение
Существует несколько методов для измерения концентрации активности Po в воде: альфа-
спектрометрия, измерение с использованием сцинтилляционного счетчика, пропорциональный счет
альфа-частиц.
В настоящем международном стандарте описывается метод измерения концентрации активности Po
в природной воде методом альфа-спектрометрии.
Полоний 210 ( Po) является природным альфа-излучающим радионуклидом с периодом полураспада
138 дней. Он возникает в природной цепочке урана 238 ( U) (см. Рисунок 1). Является долгоживущим
222 210
продуктом распада радона 222 ( Rn) через свинец 210 ( Pb) (см. Ссылки [5] до [9]).
При работе с такими радиоактивными материалами, как изотопы полония, необходимы меры
предосторожности.
Диапазоны концентрации Po, например, в питьевой воде, вообще очень низкие, обычно в диапазоне
1 1
− −
от 1 мБк l до 30 мБк l .
Этот международный стандарт распространяется на все типы воды, включая морскую воду, и обычно
210 1

допускает измерение концентраций активности Po, которые равны 5 мБк l или более.

ПРИМЕЧАНИЕ Pb устойчив.
Рисунок 1 — Уран 238 и продукты его распада

МЕЖДУНАРОДНЫЙ СТАНДАРТ ISO 13161:2011(R)

Качество воды. Измерение концентрации активности
полония 210 в воде методом альфа-спектрометрии
ПРЕДУПРЕЖДЕНИЕ — Лица, использующие этот международный стандарт, должны быть
знакомы с нормальной лабораторной практикой. В настоящем международном стандарте не
предусматривается рассмотрение всех проблем безопасности, если таковые имеются,
связанных с его использованием. Пользователь сам должен установить надлежащие
нормативы по технике безопасности и защите здоровья и обеспечить их соответствие
условиям национального регулирования.
ВАЖНО — Абсолютно необходимо, чтобы испытания согласно этому международному
стандарту проводились соответственно обученным персоналом.
1 Область применения
В настоящем международном стандарте устанавливается измерение концентрации активности Po
методом альфа-спектрометрии во всех видах природной воды.
Предел обнаружения этого метода зависит от объема пробы, фоновой скорости счета и
эффективности обнаружения. В случае питьевой воды анализ обычно проводят на сырой пробе без
фильтрации или другой предварительной обработки.
Если нужно удалить или анализировать суспендированное вещество, рекомендуется фильтрование
при 0,45 мкм. Для анализа нерастворимой фракции требуется этап минерализации, который не
[4]
рассматривается в этом международном стандарте (см. NF M 60-790-4 ). В этом случае измерение
проводят на различных полученных фазах. Окончательная активность представляет сумму всех
измеренных концентраций активности.
2 Нормативные ссылки
Следующие ссылочные нормативные документы являются обязательными при применении данного
документа. Для жестких ссылок применяется только цитированное издание документа. Для плавающих
ссылок необходимо использовать самое последнее издание нормативного ссылочного документа
(включая любые изменения).
ISO 3696, Вода для лабораторного анализа. Технические требования и методы испытания
ISO 5667-1, Качество воды. Отбор проб. Часть 1. Руководство по составлению программ и
методик отбора проб
ISO 5667-3, Качество воды. Отбор проб. Часть 1. Руководство по хранению и обращению с пробами воды
ISO 11929, Определение предельных характеристик (порога принятия решения, предела
обнаружения и пределов доверительного интервала) для измерений ионизирующего излучения.
Основы и применение
ISO 80000-10, Величины и единицы. Часть 10. Атомная и ядерная физика
ISO/IEC 17025, Общие требования к компетентности испытательных и калибровочных лабораторий
ISO/IEC Guide 98-3, Неопределенность измерений. Часть 3. Руководство по выражению
неопределенности измерений (GUM:1995)
3 Термины, определения, обозначения и единицы
Применительно к этому документу используются термины, определения, обозначения и сокращения,
данные в ISO 80000-10 и приведенные ниже.
3.1 Термины и определения
3.1.1
сертифицированный стандартный раствор
certified reference solution
раствор известной концентрации, прослеживаемый до стандартных растворов, применяемых в
качестве первичных или вторичных сертифицированных стандартных образцов радиоактивности
3.1.2
раствор изотопного индикатора
tracer solution
208 209
обычно вторичный эталон или стандартный образец, такой как Po или Po, применяемый для
измерения химического выхода анализа
3.1.3
эталон для контроля качества
quality control standard
радиоактивный источник, используемый для подтверждения того, что применяемое измерительное
оборудование работает в установленных пределах
ПРИМЕЧАНИЕ Контроль качества обычно проводят посредством регулярного измерения подходящего
[1] [2] [3]
радиоактивного источника согласно ISO 7870-1 , ISO 7870-2 и ISO 7871 .
3.2 Условные обозначения, определения и единицы
Бк
A
активность добавленного изотопного индикатора

Бк l
c
A
концентрация активности Po
−1
*
Бк l
c
порог принятия решения
A
−1
#
Бк l
c
предел обнаружения
A
−1
<>
Бк l
cc,
нижний и верхний пределы доверительного интервала
AA
R
c химический выход
R
T
полный выход
−1
r с
0 фоновая скорость счета в рассматриваемой области Po

с
r
0T фоновая скорость счета в рассматриваемой области изотопного индикатора
−1
r с
g полная с
...

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This document specifies conditions for the determination of 90Sr and 89Sr activity concentration in samples of environmental water using liquid scintillation counting (LSC) or proportional counting (PC).
The method is applicable to test samples of drinking water, rainwater, surface and ground water, marine water, as well as cooling water, industrial water, domestic, and industrial wastewater after proper sampling and handling, and test sample preparation. Filtration of the test sample and a chemical separation are required to separate and purify strontium from a test portion of the sample.
The detection limit depends on the sample volume, the instrument used, the sample count time, the background count rate, the detection efficiency and the chemical yield. The method described in this document, using currently available LSC counters, has a detection limit of approximately 10 mBq l−1 and 2 mBq l−1 for 89Sr and 90Sr, respectively, which is lower than the WHO criteria for safe consumption of drinking water (100 Bq·l−1 for 89Sr and 10 Bq·l−1 for 90Sr)[3]. These values can be achieved with a counting time of 1 000 min for a sample volume of 2 l.
The methods described in this document are applicable in the event of an emergency situation. When fallout occurs following a nuclear accident, the contribution of 89Sr to the total amount of radioactive strontium is not negligible. This document provides test methods to determine the activity concentration of 90Sr in presence of 89Sr.
The analysis of 90Sr and 89Sr adsorbed to suspended matter is not covered by this method.
It is the user’s responsibility to ensure the validity of this test method selected for the water samples tested.

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SIST EN ISO 10703:2021(Main)
Water quality - Gamma-ray emitting radionuclides - Test method using high resolution gamma-ray spectrometry (ISO 10703:2021)
EN ISO 10703:2021

This document specifies a method for the physical pre-treatment and conditioning of water samples and the determination of the activity concentration of various radionuclides emitting gamma-rays with energies between 40 keV and 2 MeV, by gamma‑ray spectrometry according to the generic test method described in ISO 20042.
The method is applicable to test samples of drinking water, rainwater, surface and ground water as well as cooling water, industrial water, domestic and industrial wastewater after proper sampling, sample handling, and test sample preparation (filtration when necessary and taking into account the amount of dissolved material in the water). This method is only applicable to homogeneous samples or samples which are homogeneous via timely filtration.
The lowest limit that can be measured without concentration of the sample or by using only passive shield of the detection system is about 5·10-2 Bq/l for e.g. 137Cs.1 The upper limit of the activity corresponds to a dead time of 10 %. Higher dead times may be used but evidence of the accuracy of the dead-time correction is required.
Depending on different factors, such as the energy of the gamma-rays, the emission probability per nuclear disintegration, the size and geometry of the sample and the detector, the shielding, the counting time and other experimental parameters, the sample may require to be concentrated by evaporation if activities below 5·10-2 Bq/l need to be measured. However, volatile radionuclides (e.g. radon and radioiodine) can be lost during the source preparation.
This method is suitable for application in emergency situations.
1The sample geometry: 3l Marinelli beaker; detector: GE HP N relative efficiency 55 % ; counting time: 18h.

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SIST EN ISO 13162:2021(Main)
Water quality - Carbon 14 - Test method using liquid scintillation counting (ISO 13162:2021)
EN ISO 13162:2021

This document specifies a method for the measurement of 14C activity concentration in all types of water samples by liquid scintillation counting (LSC) either directly on the test sample or following a chemical separation.
The method is applicable to test samples of supply/drinking water, rainwater, surface and ground water, marine water, as well as cooling water, industrial water, domestic, and industrial wastewater.
The detection limit depends on the sample volume, the instrument used, the sample counting time, the background count rate, the detection efficiency and the chemical recovery. The method described in this document, using currently available liquid scintillation counters and suitable technical conditions, has a detection limit as low as 1 Bq∙l−1, which is lower than the WHO criteria for safe consumption of drinking water (100 Bq·l-1). 14C activity concentrations can be measured up to 106 Bq∙l-1 without any sample dilution.
It is the user’s responsibility to ensure the validity of this test method for the water samples tested.

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SIST EN ISO 22515:2021(Main)
Water quality - Iron-55 - Test method using liquid scintillation counting (ISO 22515:2021)
EN ISO 22515:2021

This document specifies a test method for the determination of iron-55 (55Fe) activity concentration in samples of all types of water using liquid scintillation counting (LSC). Using currently available liquid scintillation counters, this test method can measure the 55Fe activity concentrations in the range from the limit of detection up to 120 mBq l-1. These values can be achieved with a counting time between 7 200 s and 10 800 s for a sample volume from 0,5 l to 1,5 l. Higher activity concentrations can be measured by either diluting the sample or using smaller sample aliquots or both.
NOTE      These performance indicators are wholly dependent on the measurement regimes in individual laboratories; in particular, the detection limits are influenced by amount of stable iron present.
The range of application depends on the amount of dissolved material in the water and on the performance characteristics of the measurement equipment (background count rate and counting efficiency).
It is the laboratory’s responsibility to ensure the suitability of this test method for the water samples tested.

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SIST EN ISO 22017:2021(Main)
Water quality - Guidance for rapid radioactivity measurements in nuclear or radiological emergency situation (ISO 22017:2020)
EN ISO 22017:2020

This document provides guidelines for testing laboratories wanting to use rapid test methods on water samples that may be contaminated following a nuclear or radiological emergency incident. In an emergency situation, consideration should be given to:
—     taking into account the specific context for the tests to be performed, e.g. a potentially high level of contamination;
—     using or adjusting, when possible, radioactivity test methods implemented during routine situations to obtain a result rapidly or, for tests not performed routinely, applying specific rapid test methods previously validated by the laboratory, e.g. for 89Sr determination;
—     preparing the test laboratory to measure a large number of potentially contaminated samples.
The aim of this document is to ensure decision makers have reliable results needed to take actions quickly and minimize the radiation dose to the public.
Measurements are performed in order to minimize the risk to the public by checking the quality of water supplies. For emergency situations, test results are often compared to operational intervention levels.
NOTE    Operational intervention levels (OILs) are derived from IAEA Safety Standards[8] or national authorities[9].
A key element of rapid analysis can be the use of routine methods but with a reduced turnaround time. The goal of these rapid measurements is often to check for unusual radioactivity levels in the test sample, to identify the radionuclides present and their activity concentration levels and to establish compliance of the water with intervention levels[10][11][12]. It should be noted that in such circumstances, validation parameters evaluated for routine use (e.g. reproducibility, precision, etc.) may not be applicable to the modified rapid method. However, due to the circumstances arising after an emergency, the modified method may still be fit-for-purpose although uncertainties associated with the test results need to be evaluated and may increase from routine analyses.
The first steps of the analytical approach are usually screening methods based on gross alpha and gross beta test methods (adaptation of ISO 10704 and ISO 11704) and gamma spectrometry (adaptation of ISO 20042, ISO 10703 and ISO 19581). Then, if required[13], test method standards for specific radionuclides (see Clause 2) are adapted and applied (for example, 90Sr measurement according to ISO 13160) as proposed in Annex A.
This document refers to published ISO documents. When appropriate, this document also refers to national standards or other publicly available documents.
Screening techniques that can be carried out directly in the field are not part of this document.

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