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ISO 4220:1983

(Main)

Ambient air — Determination of a gaseous acid air pollution index — Titrimetric method with indicator or potentiometric end-point detection

Ambient air — Determination of a gaseous acid air pollution index — Titrimetric method with indicator or potentiometric end-point detection

Is applicable to mass concentrations of sulfur dioxide higher than 30 g/m3. The results obtained following this procedure depend on the amounts of acid and alkaline gaseous air pollutants which are likely to be determined under the specified sampling and analytical conditions.

Air ambiant — Détermination d'un indice de pollution gazeuse acide de l'air — Méthode titrimétrique avec indicateur ou détection potentiométrique du point final

Zunanji zrak - Določevanje indeksa onesnaženosti zraka s kislimi plini - Titrimetrijska metoda z indikatorsko ali potenciometrijsko detekcijo končne točke

General Information

Status
Published
Publication Date
30-Nov-1983
ICS
13.040.20 - Ambient atmospheres
Technical Committee
ISO/TC 146/SC 3 - Ambient atmospheres
Drafting Committee
ISO/TC 146/SC 3 - Ambient atmospheres
Current Stage
9093 - International Standard confirmed
Completion Date
18-Sep-2023
Ref Project
SIST ISO 4220:1996 - Ambient air - Determination of a gaseous acid air pollution index - Titrimetric method with indicator or potentiometric end-point detection

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ISO 4220:1983 - Ambient air -- Determination of a gaseous acid air pollution index -- Titrimetric method with indicator or potentiometric end-point detectionISO 4220:1983 - Ambient air -- Determination of a gaseous acid air pollution index -- Titrimetric method with indicator or potentiometric end-point detection
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ISO 4220:1983 - Air ambiant -- Détermination d'un indice de pollution gazeuse acide de l'air -- Méthode titrimétrique avec indicateur ou détection potentiométrique du point finalISO 4220:1983 - Air ambiant -- Détermination d'un indice de pollution gazeuse acide de l'air -- Méthode titrimétrique avec indicateur ou détection potentiométrique du point final
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ISO 4220:1983 - Air ambiant -- Détermination d'un indice de pollution gazeuse acide de l'air -- Méthode titrimétrique avec indicateur ou détection potentiométrique du point finalISO 4220:1983 - Air ambiant -- Détermination d'un indice de pollution gazeuse acide de l'air -- Méthode titrimétrique avec indicateur ou détection potentiométrique du point final
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Standards Content (Sample)

International Standard
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION.MEIK&YHAPOAHAR OPI-AHH3ALWlR fl0 CTAH~APTH3AL&lW~RGANISATION INTERNATIONALE DE NORMALISATION
Ambient air - Determination of a gaseous acid air
pollution index - Titrimetric method with indicator or
potentiometric end-point detection
Air ambian t - DtStermination d’un indice de pollution gazeuse acide de l’air - Mhthode titrimetrique avec indicateur ou
d6 tec tion po ten tiomh trique du poin t final
First edition - 1983-12-01
Corrected and reprinted - 1984-08-15
Ref. No. ISO 4220-1983 (EI
UDC 614.71 : 543.27 : 543.257.1
acids, sulphur dioxide, volumetric analysis, potentiometric
Descriptors : air, air pollution, Chemical analysis, determination of content, gases,
analysis.
Price based on 5 pages

---------------------- Page: 1 ----------------------
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of
national Standards bodies (ISO member bodies). The work of developing International
Standards is carried out through ISO technical committees. Every member body
interested in a subject for which a technical committee has been authorized 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.
Draft International Standards adopted by the technical committees are circulated to
the member bodies for approval before their acceptance as International Standards by
the ISO Council.
International Standard ISO 4220 was developed by Technical (Zornmittee ISWTC 146,
Air quality, and was circulated to the member bodies in October 1982.
lt has been approved by the member bodies of the following countries:
Austria
Hungary Spain
Belgium India Switzerland
Brazil
Italy Thailand
China United Kingdom
Japan
Czechoslovakia Netherlands USA
Egypt, Arab Rep. of Norway
Germany, F. R. South Africa, Rep. of
The member bodies of following countries expressed roval of the document
on technical grounds :
Australia
Canada
0 International Organkation for Standardkation, 1983
Printed in Switzerland

---------------------- Page: 2 ----------------------
INTERNATIONAL STANDARD ISO 42204983 (E)
Ambient air - Determination of a gaseous acid air
Titrimetric method with indicator or
pollution index -
potentiometric end-point detection ’
5 Reagents
4 Scope and field of application
During the analysis, use only reagents of recognized analytical
This International Standard specifies a titrimetric method for
grade and only double-distilled or deionized and distilled water.
the determination of a gaseous acid pollution index (sec
clause 3) of ambient air, using an indicator or a potentiometric
procedure to detect the end-point.
5.1 Hydrogen Peroxide, Solution, 27 to 30 % (mlm).
The method is applicable to the determination of a gaseous
5.2 Potassium chloride, Solution, saturated at room
acid pollution index of ambient air equivalent to mass concen-
temperature (potentiometric procedure only).
trations of Sulfur dioxide higher than 30 pg/m3.
NOTE - This Solution improves the conductivity and the stability of
The results obtained following this method depend on the
the pH reading.
amounts of both acid and alkaline gaseous air pollutants which
are likely to be determined under the specified sampling and
analytical conditions.
5.3 Buffer solutions.
The sampling period is 24 or 48 h.
Use appropriate commercially available buffer solutions or
prepare buffer solutions of equivalent quality from commer-
The method is not specific for Sulfur dioxide.
cially available powders or tablets or by established laboratory
procedures (potentiometric procedure only).
The pH of the solutions shall be accurately known at a given
2 Reference
temperature.
ISO 4219, Air quality - Determination of gaseous sulphur
compounds in ambient air - Sampling equipment.
5.4 Absorption Solution, pH 4,5.
Place 10 ml of the hydrogen peroxide Solution (5.1) (col-
3 Definition
orimetric procedure) or 10 ml of the hydrogen peroxide Solution
and 25 ml of the potassium chloride Solution (5.2) (poten-
gaseous acid air pollution index: Concentration of water-
tiometric procedure) into a 1 000 ml one-mark volumetric flask,
soluble “acidic” gaseous components of the air Sample ex- make up to the mark with water and mix weil. Titrate a 50 ml ali-
pressed conventionally in terms of Sulfur dioxide. quot Portion of the Solution obtained to pH 4,5 with the stan-
dard volumetric sulfuric acid Solution (5.5) after the addition of
NOTE - The gaseous acid air pollution index is not a total acidity index 1,0 ml of indicator Solution (5.7) (colorimetric procedure) or
as this would also include particulate acid air pollutants.
using a pH meter (potentiometric procedure). Titrate Iikewise a
second 50 ml aliquot Portion of the diluted hydrogen peroxide
Solution. Record the mean of the volume, V,, of th
...

SLOVENSKI STANDARD
SIST ISO 4220:1996
01-maj-1996
=XQDQML]UDN'RORþHYDQMHLQGHNVDRQHVQDåHQRVWL]UDNDVNLVOLPLSOLQL
7LWULPHWULMVNDPHWRGD]LQGLNDWRUVNRDOLSRWHQFLRPHWULMVNRGHWHNFLMRNRQþQHWRþNH
Ambient air - Determination of a gaseous acid air pollution index - Titrimetric method with
indicator or potentiometric end-point detection
Air ambiant - Détermination d'un indice de pollution gazeuse acide de l'air - Méthode
titrimétrique avec indicateur ou détection potentiométrique du point final
Ta slovenski standard je istoveten z: ISO 4220:1983
ICS:
13.040.20 Kakovost okoljskega zraka Ambient atmospheres
SIST ISO 4220:1996 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

---------------------- Page: 1 ----------------------

SIST ISO 4220:1996

---------------------- Page: 2 ----------------------

SIST ISO 4220:1996
International Standard
INTERNATIONAL ORGANIZATION FOR STANDARDIZATION.MEIK&YHAPOAHAR OPI-AHH3ALWlR fl0 CTAH~APTH3AL&lW~RGANISATION INTERNATIONALE DE NORMALISATION
Ambient air - Determination of a gaseous acid air
pollution index - Titrimetric method with indicator or
potentiometric end-point detection
Air ambian t - DtStermination d’un indice de pollution gazeuse acide de l’air - Mhthode titrimetrique avec indicateur ou
d6 tec tion po ten tiomh trique du poin t final
First edition - 1983-12-01
Corrected and reprinted - 1984-08-15
Ref. No. ISO 4220-1983 (EI
UDC 614.71 : 543.27 : 543.257.1
acids, sulphur dioxide, volumetric analysis, potentiometric
Descriptors : air, air pollution, Chemical analysis, determination of content, gases,
analysis.
Price based on 5 pages

---------------------- Page: 3 ----------------------

SIST ISO 4220:1996
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of
national Standards bodies (ISO member bodies). The work of developing International
Standards is carried out through ISO technical committees. Every member body
interested in a subject for which a technical committee has been authorized 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.
Draft International Standards adopted by the technical committees are circulated to
the member bodies for approval before their acceptance as International Standards by
the ISO Council.
International Standard ISO 4220 was developed by Technical (Zornmittee ISWTC 146,
Air quality, and was circulated to the member bodies in October 1982.
lt has been approved by the member bodies of the following countries:
Austria
Hungary Spain
Belgium India Switzerland
Brazil
Italy Thailand
China United Kingdom
Japan
Czechoslovakia Netherlands USA
Egypt, Arab Rep. of Norway
Germany, F. R. South Africa, Rep. of
The member bodies of following countries expressed roval of the document
on technical grounds :
Australia
Canada
0 International Organkation for Standardkation, 1983
Printed in Switzerland

---------------------- Page: 4 ----------------------

SIST ISO 4220:1996
INTERNATIONAL STANDARD ISO 42204983 (E)
Ambient air - Determination of a gaseous acid air
Titrimetric method with indicator or
pollution index -
potentiometric end-point detection ’
5 Reagents
4 Scope and field of application
During the analysis, use only reagents of recognized analytical
This International Standard specifies a titrimetric method for
grade and only double-distilled or deionized and distilled water.
the determination of a gaseous acid pollution index (sec
clause 3) of ambient air, using an indicator or a potentiometric
procedure to detect the end-point.
5.1 Hydrogen Peroxide, Solution, 27 to 30 % (mlm).
The method is applicable to the determination of a gaseous
5.2 Potassium chloride, Solution, saturated at room
acid pollution index of ambient air equivalent to mass concen-
temperature (potentiometric procedure only).
trations of Sulfur dioxide higher than 30 pg/m3.
NOTE - This Solution improves the conductivity and the stability of
The results obtained following this method depend on the
the pH reading.
amounts of both acid and alkaline gaseous air pollutants which
are likely to be determined under the specified sampling and
analytical conditions.
5.3 Buffer solutions.
The sampling period is 24 or 48 h.
Use appropriate commercially available buffer solutions or
prepare buffer solutions of equivalent quality from commer-
The method is not specific for Sulfur dioxide.
cially available powders or tablets or by established laboratory
procedures (potentiometric procedure only).
The pH of the solutions shall be accurately known at a given
2 Reference
temperature.
ISO 4219, Air quality - Determination of gaseous sulphur
compounds in ambient air - Sampling equipment.
5.4 Absorption Solution, pH 4,5.
Place 10 ml of the hydrogen peroxide Solution (5.1) (co
...

.4220
Norme internationale
INTERNATIONAL ORGANIZATION FOR STANDARDIZATIONW~E~YHAPO~HAR OP~AHM3AWlR fl0 CTAH&APTM3Al&lWORGANISATION INTERNATIONALE DE NORMALISATION
- Détermination d’un indice de pollution
Air ambiant
gazeuse acide de l’air - Méthode titrimétrique avec
indicateur ou détection potentiométrique du point final
Titrime trie me thod with indica tor or po ten tiome trie
Ambien t air - Determination of a gaseous acid air pollution index -
end-point detection
Première édition - 1983-12-01
Réf. no : ISO 4220-1983 (F)
CDU 614.71 : 543.27 : 543.257.1
Descripteurs : air, pollution atmosphérique, analyse chimique, dosage, gaz, acide, anhydride sulfureux, méthode volumétrique, méthode
potentiométrique.
Prix basé sur 5 pages

---------------------- Page: 1 ----------------------
Avant-propos
L’ISO (Organisation internationale de normalisation) est une fédération mondiale
d’organismes nationaux de normalisation (comités membres de I’ISO). L’élaboration
des Normes internationales est confiée aux comités techniques de I’ISO. Chaque
comité membre intéressé par une étude a le droit de faire partie du comité technique
correspondant. Les organisations internationales, gouvernementales et non gouverne-
mentales, en liaison avec I’ISO, participent également aux travaux.
Les projets de Normes internationales adoptés par les comités techniques sont soumis
aux comités membres pour approbation, avant leur acceptation comme Normes inter-
nationales par le Conseil de I’ISO.
La Norme internationale ISO/DIS 4220 a été élaborée par le comité technique
ISO/TC 146, Qualité de l’air, et a été soumise aux comités membres en octobre 1982.
Les comités membres des pays suivants l’ont approuvée:
Afrique du Sud, Rép. d’
Espagne Royaume-Uni
Allemagne, R. F. Hongrie Suisse
Autriche
Inde Tchécoslovaquie
Belgique Italie Thailande
Brésil
Japon USA
Chine Norvège
Égypte, Rép. arabe d’ Pays- Bas
Les comités membre des pays suivants l’ont désapprouvée pour des raisons tech-
niques :
Australie
Canada
0 Organisation internationale de normalisation, 1983
Imprimé en Suisse

---------------------- Page: 2 ----------------------
NORME INTERNATIONALE ISO 4220-1983 (F)
Détermination d’un indice de pollution
Air ambiant -
gazeuse acide de l’air - Méthode titrimétrique avec
indicateur ou détection potentiométrique du point final
5 Réactifs
1 Objet et domaine d’application
Au cours de l’analyse, utiliser uniquement des réactifs de qua-
La présente Norme internationale spécifie une méthode titrimé-
trique pour la détermination d’un indice de pollution gazeuse lité analytique reconnue, et de l’eau bidistillée ou de l’eau déio-
acide (voir chapitre 3) dans l’air ambiant employant soit un indi- nisée et distillée.
cateur soit un procédé potentiométrique pour déceler le point
final.
5.1 Peroxyde d’hydrogène, solution à 27 à 30 % (mlm).
Cette méthode s’applique à la détermination d’un indice de pol-
5.2 Chlorure de potassium, solution saturée à température
lution gazeuse acide de l’air ambiant équivalent à des concen-
ambiante (uniquement pour le procédé potentiométrique).
trations en masse de dioxyde de soufre supérieure à 30 pg/m3.
Les résultats obtenus selon cette méthode dépendent à la fois
NOTE - Cette solution améliore la conductivité et la stabilité de la lec-
des quantités de polluants gazeux alcalins et de polluants
ture du pH.
gazeux acides de l’air susceptibles d’être déterminés dans les
conditions d’échantillonnage et d’analyse spécifiées.
5.3 Solutions tampons.
La période d’échantillonnage est de 24 h ou de 48 h.
Utiliser les solutions tampons appropriées disponibles dans le
La méthode n’est pas spécifique du dioxyde de soufre. commerce ou préparer des solutions tampons de qualité équi-
valente à partir de poudres ou de comprimés disponibles dans
le commerce ou préparés par des procédures de laboratoire
(uniquement pour le procédé potentiométrique).
2 Référence
On connaîtra de facon précise le pH des solutions à une tempé-
Détermination des composés sou-
ISO 4219, Qua&& de l’air -
rature donnée.
frés gazeux dans l’air ambiant - Appareillage d’échantillon-
nage.
5.4 Solution d’absorption, de pH 4,5.
Mettre 10 ml de la solution d.e peroxyde d’hydrogène (5.1) (pro-
3 Définition
cédé calorimétrique) ou 10 ml de la solution de peroxyde
indice de pollution gazeuse acide de l’air: Concentration de d’hydrogène et 25 ml de la solution de chlorure de potassium
constituants gazeux (( acides)) solubles dans l’eau, d’un échan- (5.2) (procédé potentiométrique) dans une fiole jaugée à un
tillon d’air, exprimée conventionnellement en équivalent
trait à 1 000 ml, ajuster au volume avec de l’eau et bien mélan-
dioxyde de soufre.
ger. Titrer une partie aliquote de 50 ml de la solution obtenue
jusqu’à pH 4,5 avec la solution titrée d’acide sulfurique (5.5)
NOTE - L’indice de pollution gazeuse acide de l’air n’est pas un indice
après addition de 1,0 ml de la solution
...

.4220
Norme internationale
INTERNATIONAL ORGANIZATION FOR STANDARDIZATIONW~E~YHAPO~HAR OP~AHM3AWlR fl0 CTAH&APTM3Al&lWORGANISATION INTERNATIONALE DE NORMALISATION
- Détermination d’un indice de pollution
Air ambiant
gazeuse acide de l’air - Méthode titrimétrique avec
indicateur ou détection potentiométrique du point final
Titrime trie me thod with indica tor or po ten tiome trie
Ambien t air - Determination of a gaseous acid air pollution index -
end-point detection
Première édition - 1983-12-01
Réf. no : ISO 4220-1983 (F)
CDU 614.71 : 543.27 : 543.257.1
Descripteurs : air, pollution atmosphérique, analyse chimique, dosage, gaz, acide, anhydride sulfureux, méthode volumétrique, méthode
potentiométrique.
Prix basé sur 5 pages

---------------------- Page: 1 ----------------------
Avant-propos
L’ISO (Organisation internationale de normalisation) est une fédération mondiale
d’organismes nationaux de normalisation (comités membres de I’ISO). L’élaboration
des Normes internationales est confiée aux comités techniques de I’ISO. Chaque
comité membre intéressé par une étude a le droit de faire partie du comité technique
correspondant. Les organisations internationales, gouvernementales et non gouverne-
mentales, en liaison avec I’ISO, participent également aux travaux.
Les projets de Normes internationales adoptés par les comités techniques sont soumis
aux comités membres pour approbation, avant leur acceptation comme Normes inter-
nationales par le Conseil de I’ISO.
La Norme internationale ISO/DIS 4220 a été élaborée par le comité technique
ISO/TC 146, Qualité de l’air, et a été soumise aux comités membres en octobre 1982.
Les comités membres des pays suivants l’ont approuvée:
Afrique du Sud, Rép. d’
Espagne Royaume-Uni
Allemagne, R. F. Hongrie Suisse
Autriche
Inde Tchécoslovaquie
Belgique Italie Thailande
Brésil
Japon USA
Chine Norvège
Égypte, Rép. arabe d’ Pays- Bas
Les comités membre des pays suivants l’ont désapprouvée pour des raisons tech-
niques :
Australie
Canada
0 Organisation internationale de normalisation, 1983
Imprimé en Suisse

---------------------- Page: 2 ----------------------
NORME INTERNATIONALE ISO 4220-1983 (F)
Détermination d’un indice de pollution
Air ambiant -
gazeuse acide de l’air - Méthode titrimétrique avec
indicateur ou détection potentiométrique du point final
5 Réactifs
1 Objet et domaine d’application
Au cours de l’analyse, utiliser uniquement des réactifs de qua-
La présente Norme internationale spécifie une méthode titrimé-
trique pour la détermination d’un indice de pollution gazeuse lité analytique reconnue, et de l’eau bidistillée ou de l’eau déio-
acide (voir chapitre 3) dans l’air ambiant employant soit un indi- nisée et distillée.
cateur soit un procédé potentiométrique pour déceler le point
final.
5.1 Peroxyde d’hydrogène, solution à 27 à 30 % (mlm).
Cette méthode s’applique à la détermination d’un indice de pol-
5.2 Chlorure de potassium, solution saturée à température
lution gazeuse acide de l’air ambiant équivalent à des concen-
ambiante (uniquement pour le procédé potentiométrique).
trations en masse de dioxyde de soufre supérieure à 30 pg/m3.
Les résultats obtenus selon cette méthode dépendent à la fois
NOTE - Cette solution améliore la conductivité et la stabilité de la lec-
des quantités de polluants gazeux alcalins et de polluants
ture du pH.
gazeux acides de l’air susceptibles d’être déterminés dans les
conditions d’échantillonnage et d’analyse spécifiées.
5.3 Solutions tampons.
La période d’échantillonnage est de 24 h ou de 48 h.
Utiliser les solutions tampons appropriées disponibles dans le
La méthode n’est pas spécifique du dioxyde de soufre. commerce ou préparer des solutions tampons de qualité équi-
valente à partir de poudres ou de comprimés disponibles dans
le commerce ou préparés par des procédures de laboratoire
(uniquement pour le procédé potentiométrique).
2 Référence
On connaîtra de facon précise le pH des solutions à une tempé-
Détermination des composés sou-
ISO 4219, Qua&& de l’air -
rature donnée.
frés gazeux dans l’air ambiant - Appareillage d’échantillon-
nage.
5.4 Solution d’absorption, de pH 4,5.
Mettre 10 ml de la solution d.e peroxyde d’hydrogène (5.1) (pro-
3 Définition
cédé calorimétrique) ou 10 ml de la solution de peroxyde
indice de pollution gazeuse acide de l’air: Concentration de d’hydrogène et 25 ml de la solution de chlorure de potassium
constituants gazeux (( acides)) solubles dans l’eau, d’un échan- (5.2) (procédé potentiométrique) dans une fiole jaugée à un
tillon d’air, exprimée conventionnellement en équivalent
trait à 1 000 ml, ajuster au volume avec de l’eau et bien mélan-
dioxyde de soufre.
ger. Titrer une partie aliquote de 50 ml de la solution obtenue
jusqu’à pH 4,5 avec la solution titrée d’acide sulfurique (5.5)
NOTE - L’indice de pollution gazeuse acide de l’air n’est pas un indice
après addition de 1,0 ml de la solution
...

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Ambient air — Determination of asbestos fibres — Indirect-transfer transmission electron microscopy method
SIST ISO 13794:2019

This document specifies a reference method using transmission electron microscopy for the determination of airborne asbestos fibres and structures in in a wide range of ambient air situations, including the interior atmospheres of buildings, and for a detailed evaluation for asbestos structures in any atmosphere. The specimen preparation procedure incorporates ashing and dispersion of the collected particulate, so that all asbestos is measured, including the asbestos originally incorporated in particle aggregates or particles of composite materials. The lengths, widths and aspect ratios of the asbestos fibres and bundles are measured, and these, together with the density of the type of asbestos, also allow the total mass concentration of airborne asbestos to be calculated. The method allows determination of the type(s) of asbestos fibres present. The method cannot discriminate between individual fibres of the asbestos and elongate fragments (cleavage fragments and acicular particles) from non-asbestos analogues of the same amphibole mineral[12].

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ISO
ISO/TS 20593:2017(Main)
Ambient air — Determination of the mass concentration of tire and road wear particles (TRWP) — Pyrolysis-GC-MS method
SIST-TS ISO/TS 20593:2018

ISO/TS 20593:2017 specifies a method for the determination of the airborne concentration (μg/m3), mass concentration (μg/g) and mass fraction (%) of tyre and road wear particles (TRWP) in ambient particulate matter (PM) samples. ISO/TS 20593:2017 establishes principles for air sample collection, the generation of pyrolysis fragments from the sample, and the quantification of the generated polymer fragments. The quantified polymer mass is used to calculate the fraction of tyre tread in PM and concentration of tyre tread in air. These quantities are expressed on a TRWP basis, which includes the mass of tyre tread and mass of road wear encrustations, and can also be expressed on a tyre rubber polymer or tyre tread basis. Air sample collection is on quartz fibre filters with size-selective input in a range of PM2,5 or PM10. The method is suitable for the determination of TRWP in indoor or outdoor atmospheres.

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ISO
ISO 22262-3:2016(Main)
Air quality — Bulk materials — Part 3: Quantitative determination of asbestos by X-ray diffraction method
SIST ISO 22262-3:2018

ISO 22262-3:2016 is primarily intended for quantitative analysis of samples in which asbestos has been identified at estimated mass fractions lower than approximately 5 % by weight. ISO 22262-3:2016 extends the applicability and limit of detection of quantitative analysis by the use of simple procedures of ashing and/or acid treatment prior to XRD quantification. ISO 22262-3:2016 is applicable to the asbestos-containing materials identified in ISO 22262‑1. The following are examples of sample matrices: a) any building materials in which asbestos was detected by the analysis in ISO 22262‑1; b) resilient floor tiles, asphaltic materials, roofing felts and any other materials in which asbestos is embedded in an organic matrix and in which asbestos was detected when using ISO 22262‑1; c) wall and ceiling plasters, with or without aggregate, in which asbestos was detected when using ISO 22262‑1. If non-asbestiform serpentine or non-asbestiform amphibole minerals are included in the matrix, the XRD peaks that are assumed to be "possible peaks of asbestos" will represent these minerals. This method is not for application to natural minerals that may contain asbestos or any products that incorporate such natural minerals. This method is intended only for application to building material samples that contain deliberately added commercial grade asbestos including tremolite asbestos. ISO 22262-3:2016 is intended for use by analysts who are familiar with X-ray diffraction methods and the other analytical procedures specified in the References [5] and [6]. It is not the intention of this part of ISO 22262 to provide basic instruction in the fundamental analytical procedures.

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ISO
ISO 22262-2:2014(Main)
Air quality — Bulk materials — Part 2: Quantitative determination of asbestos by gravimetric and microscopical methods
SIST ISO 22262-2:2014

ISO 22262-2:2014 specifies procedures for quantification of asbestos mass fractions below approximately 5 %, and quantitative determination of asbestos in vermiculite, other industrial minerals and commercial products that incorporate these minerals. ISO 22262-2:2014 is applicable to the quantitative analysis of: a) any material for which the estimate of asbestos mass fraction obtained using ISO 22262-1 is deemed to be of insufficient precision to reliably classify the regulatory status of the material, or for which it is considered necessary to obtain further evidence to demonstrate the absence of asbestos; b) resilient floor tiles, asphaltic materials, roofing felts and any other materials in which asbestos is embedded in an organic matrix; c) wall and ceiling plasters, with or without aggregate; d) mineral products such as wollastonite, dolomite, calcite, talc or vermiculite, and commercial products containing these minerals. It is not the intent of ISO 22262 to provide instruction in the fundamental microscopical and analytical techniques.

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ISO
ISO 16000-27:2014(Main)
Indoor air — Part 27: Determination of settled fibrous dust on surfaces by SEM (scanning electron microscopy) (direct method)
SIST ISO 16000-27:2015

ISO 16000-27:2014 specifies a method giving an index for the numerical concentration of fibrous structures with fibres equal or greater than 0,2 µm in diameter in settled dust on surfaces and their classification into specific substance groups (e.g. chrysotile, amphibole asbestos, other inorganic fibres). It is primarily applicable to indoor areas, but it is also suitable for certain outdoor situations. A sampling technique for collection of settled dust using adhesive tape is described. The method incorporates an analytical method for evaluation of the collected samples by scanning electron microscopy. The result can be specified in asbestos structures per unit area and/or classified into four different loading classes. The analytical sensitivity depends on the area examined and can be as low as 10 structures/cm2. For the purpose of ISO 16000-27:2014, an asbestos or fibrous structure is defined as an asbestos or (other inorganic/organic) fibre-containing particle regardless of its diameter. The use of the sampling method described is limited, depending on the structure and type of the surface (minor roughness and curvature) and the thickness of dust layer. If the dust layer is too thick, the dust layer can be sampled by other means and eventually analysed as powder sample. It is assumed that the settled dust has particle diameters mostly below 1 mm.

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ISO
ISO 22262-1:2012(Main)
Air quality — Bulk materials — Part 1: Sampling and qualitative determination of asbestos in commercial bulk materials
SIST ISO 22262-1:2013

This part of ISO 22262 specifies methods for sampling bulk materials and identification of asbestos in commercial bulk materials. This part of ISO 22262 specifies appropriate sample preparation procedures and describes in detail the procedure for identification of asbestos by polarized light microscopy and dispersion staining. This part of ISO 22262 also specifies simple procedures for separation of asbestos fibres from matrix materials such as asphalt, cement, and plastics products. Optionally, identification of asbestos can be carried out using scanning electron microscopy or transmission electron microscopy with energy dispersive X-ray analysis. Information is also provided on common analytical problems, interferences and other types of fibre that may be encountered in the analysis. This part of ISO 22262 is applicable to qualitative identification of asbestos in specific types of manufactured asbestos-containing products and commercial minerals. This part of ISO 22262 is applicable to the analysis of fireproofing, thermal insulation, and other manufactured products or minerals in which asbestos fibres can readily be separated from matrix materials for identification. NOTE This part of ISO 22262 is intended for use by microscopists who are familiar with polarized light microscopy methods and the other analytical procedures specified (References [16]?[19]). It is not the intention of this part of ISO 22262 to provide instruction in the fundamental analytical techniques.

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ISO
ISO 15337:2009(Main)
Ambient air — Gas phase titration — Calibration of analysers for ozone
SIST ISO 15337:2013

ISO 15337:2009 specifies the gas phase titration (GPT) method for the calibration of ambient air ozone (O3) analysers. The method is applicable to the calibration of O3 concentrations in the range 10 µg m−3 (5 nmol mol−1 mole fraction) to 2 000 µg m−3 (1 000 nmol mol−1 mole fraction). ISO 15337:2009 uses the reference conditions of 25 °C and 101,325 kPa; however, reference temperatures of 0 °C and 20 °C are also acceptable.

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