iTeh StandardsiTeh Standards
EURUSD
Your shopping cart is empty.
SIST

SIST EN ISO 80079-36:2016

(Main)

Explosive atmospheres - Part 36: Non-electrical equipment for use in explosive atmospheres - Basic methods and requirements (ISO 80079-36:2016)

Explosive atmospheres - Part 36: Non-electrical equipment for use in explosive atmospheres - Basic methods and requirements (ISO 80079-36:2016)

This International Standard specifies the basic method and requirements for design, construction, testing and marking of non-electrical equipment intended for use in explosive atmospheres in air of gas, vapour, mist and dusts. Such atmospheres can also exist inside the equipment. In addition, the external atmosphere can be drawn inside the equipment by natural breathing produced as a result of fluctuations in the equipment’s internal operating pressure, and/or temperature.

Explosionsfähige Atmosphären - Teil 36: Nichtelektrische Geräte für den Einsatz in explosionsfähigen Atmosphären - Grundlagen und Anforderungen (ISO 80079-36:2016)

Diese Norm legt die Grundlagen und Anforderungen an Konstruktion, Bau, Prüfung und Kennzeichnung von nichtelektrischen Geräten und Ex Komponenten fest, die für explosionsfähige Atmosphären vorgesehen sind. Diese Norm ist auch für die Konstruktion, den Bau, Prüfung und Kennzeichnung von Komponenten, Schutzsystemen, Geräten und Baugruppen dieser Produkte anwendbar, die eigene potenzielle Zündquellen besitzen und für explosionsfähige Atmosphären vorgesehen sind.
Die Norm legt keine Anforderungen an die Sicherheit fest, ausgenommen jene, die in direktem Zusammen-hang mit dem Explosionsrisiko stehen.
Die normalen atmosphärischen Bedingungen (im Hinblick auf die Explosionseigenschaften der Atmosphäre), unter denen davon auszugehen ist, dass das Gerät betrieben werden kann, sind:
-   Temperatur 20 °C bis +60 °C;
-   Druck 80 kPa (0,8 bar) bis 110 kPa (1,1 bar);
-   und Luft mit normalem Sauerstoffgehalt, gewöhnlich 21 % (Volumenanteil).
ANMERKUNG 1   Derartige Atmosphären können auch im Innern des Gerätes vorhanden sein. Zudem kann die externe Atmosphäre durch natürlichen Austausch als Folge von Schwankungen des Betriebsinnendrucks und/oder der Tempe¬ratur in das Innere des Gerätes gezogen werden.
ANMERKUNG 2   Obwohl die oben aufgeführten normalen atmosphärischen Bedingungen einen Temperaturbereich für die Atmosphäre von 20 °C bis +60 °C angeben, ist der normale Umgebungstemperaturbereich für das Gerät 20 ° bis +40 °C, sofern es nicht anders festgelegt und gekennzeichnet ist. Angenommen wird, dass 20 ° bis +40 °C für die meisten Geräte angemessen ist und dass die Fertigung aller Geräte unnötige Konstruktionsbeschränkungen auferlegen würde, um sie für die Anwendung in einer normalen Atmosphäre im oberen Temperaturbereich von +60 °C geeignet zu machen.
ANMERKUNG 3   Die Anforderungen der vorliegenden Norm können auch bei Konstruktion, Bau, Prüfung und Kennzeich¬nung von Geräten von Nutzen sein, die für den Einsatz in Atmosphären bestimmt sind, die nicht in den oben festgelegten Gültigkeitsbereich dieser Norm fallen. Jedoch sollten in diesem Fall die Zündgefahrenbewertung, die vorgesehene Zünd¬schutzart, zusätzliche Prüfungen (falls erforderlich), die technische Dokumentation des Herstellers und die Betriebs¬anleitung für den Anwender die Eignung der Geräte für die möglichen Einsatzbedingungen eindeutig darstellen und nachweisen. Auch sollte unbedingt bedacht werden, dass Temperatur  und Druckänderungen einen wesentlichen Einfluss auf die Zündfähigkeit haben können.
Sie legt die Anforderungen an die Konstruktion und den Bau von Geräten fest, die für explosionsgefährdete Bereiche in Übereinstimmung mit allen EPL der Gruppen I, II und III vorgesehen sind. Diese Norm kann durch Normen ergänzt werden, die die spezifischen Zündschutzarten betreffen.
ANMERKUNG 4   Nach dieser Norm für ein bestimmtes EPL konstruierte und gebaute Geräte können in Bereichen eingesetzt werden, die ein EPL mit höherem Sicherheitsniveau durch die Anwendung von zusätzlichen Explosionsschutz¬maßnahmen und/oder  verfahren erfordern. Derartige Anwendungen werden in der vorliegenden Norm nicht behandelt. Zu derartigen Explosionsschutzmaßnahmen und/oder  verfahren zählen beispielsweise Inertisierung, Explosionsunter¬drückung, Explosionsdruckentlastung oder explosionsfeste Bauweise oder z. B. Konzentrationsverringerung durch Verdünnen, Absaugung, Überwachung und Abschaltung. Derartige Explosionsschutzverfahren liegen außerhalb des Anwendungsbereichs dieser Norm.
Diese Norm ergänzt und modifiziert die allgemeinen Anforderungen von IEC 60079-0 bis auf die in Tabelle 1 angegebenen. Steht eine Anforderung der vorliegenden Norm im Widerspruch zu einer Anforderung von IEC 60079-0, hat die Anforderung der vorliegenden Norm Vorrang, soweit sie auf ein nichtelektrisches Gerät zutrifft.

Atmosphères explosives - Partie 36: Matériels non électriques destinés à être utilisés en atmosphères explosives - Méthodologie et exigences (ISO 80079-36:2016)

L'ISO 80079-36:2016 spécifie la méthodologie et les exigences de base pour la conception, la construction, les essais et le marquage des appareils Ex non électriques, des composants Ex, des systèmes de protection, des dispositifs et des assemblages de ces produits qui comportent leurs propres sources potentielles d'inflammation et qui sont destinés à être utilisés en atmosphères explosives. Les outils à main et les appareils à fonctionnement manuel sans stockage d'énergie sont exclus du domaine d'application de la présente norme. La présente norme ne traite pas de la sécurité des appareils de procédés autonomes statiques s'ils ne font pas partie des appareils auxquels la présente norme fait référence. La présente norme ne spécifie pas les exigences de sécurité autres que les exigences directement liées au risque d'inflammation pouvant entraîner une explosion. Les conditions atmosphériques normalisées (relatives aux caractéristiques d'explosion de l'atmosphère), selon lesquelles il peut être assumé que les appareils peuvent fonctionner sont les suivantes:
- température de - 20 °C à 60 °C;
- pression de 80 kPa (0,8 bar) à 110 kPa (1,1 bar); et
- air avec teneur normale en oxygène, typiquement de 21 % v/v. De telles atmosphères peuvent également exister à l'intérieur de l'appareil. En outre, l'atmosphère externe peut être aspirée à    
l'intérieur de l'appareil par la respiration naturelle produite en raison des variations de pression de fonctionnement interne de l'appareil et/ou de la température. La présente partie de l'ISO/IEC
80079 définit les exigences relatives à la conception et à la construction des appareils destinés à être utilisés en atmosphères explosives en conformité avec tous les niveaux de protection de    
l'appareil (EPL) des Groupes I, II et III. Cette norme complète et modifie les exigences générales de l'IEC 60079-0 comme indiqué dans le Tableau 1 dans l'avant-propos du document.              
Mots clés: appareils mécaniques protégés contre l'explosion

Eksplozivne atmosfere - 36. del: Neelektrična oprema za potencialno eksplozivne atmosfere - Osnovne metode in zahteve (ISO 80079-36:2016)

Ta mednarodni standard določa osnovno metodo in zahteve za načrtovanje, konstrukcijo, preskušanje in označevanje neelektrične opreme, ki je namenjena za uporabo v eksplozivnih atmosferah plinov, hlapov, meglic in prahu v zraku. Takšne atmosfere lahko obstajajo tudi znotraj opreme. Poleg tega lahko zunanja atmosfera prodira v opremo prek naravnega dihanja, ki nastane kot posledica nihanja notranjega delovnega tlaka opreme in/ali temperature.

General Information

Status
Published
Publication Date
17-May-2016
ICS
13.230 - Explosion protection
29.260.20 - Electrical apparatus for explosive atmospheres
Technical Committee
EXP - Electrical apparatus for explosive atmospheres
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
14-Apr-2016
Due Date
19-Jun-2016
Completion Date
18-May-2016
Directive
2014/34/EU - Directive 2014/34/EU Of The European Parliament And Of The Council of 26 February 2014 on the harmonisation of the laws of the Member States relating to equipment and protective systems intended for use in potentially explosive atmospheres (recast)
94/9/EC - Directive 94/9/EC of the European Parliament and the Council of 23 March 1994 on the approximation of the laws of the Member States concerning equipment and protective systems intended for use in potentially explosive atmospheres
Mandate
M/BC/CEN/92/46 - Standardization mandate assigned to CEN/CENELEC concerning equipment and protective systems intended for use in potentially explosive atmospheres
Ref Project
EN ISO 80079-36:2016 - Explosive atmospheres - Part 36: Non-electrical equipment for explosive atmospheres - Basic method and requirements (ISO 80079-36:2016)

Relations

Replaces
SIST EN 13463-1:2009 - Non-electrical equipment for use in potentially explosive atmospheres - Part 1: Basic method and requirements
Effective Date
31-Oct-2012
Corrected By
SIST EN ISO 80079-36:2016/AC:2020 - Explosive atmospheres - Part 36: Non-electrical equipment for explosive atmospheres - Basic method and requirements - Technical Corrigendum 1 (ISO 80079-36:2016/Cor 1:2019)
Effective Date
04-Dec-2019
Replaces
SIST EN 13463-1:2009 - Non-electrical equipment for use in potentially explosive atmospheres - Part 1: Basic method and requirements
Effective Date
08-Jun-2022

Buy Standard

EN ISO 80079-36:2016EN ISO 80079-36:2016
PreviousNext
Standard
EN ISO 80079-36:2016
English language
93 pages
sale 10% off
Preview
sale 10% off
Preview
e-Library read for
1 day

Standards Content (Sample)

SLOVENSKI STANDARD
SIST EN ISO 80079-36:2016
01-julij-2016
1DGRPHãþD
SIST EN 13463-1:2009
(NVSOR]LYQHDWPRVIHUHGHO1HHOHNWULþQDRSUHPD]DSRWHQFLDOQRHNVSOR]LYQH
DWPRVIHUH2VQRYQHPHWRGHLQ]DKWHYH ,62
Explosive atmospheres - Part 36: Non-electrical equipment for use in explosive
atmospheres - Basic methods and requirements (ISO 80079-36:2016)
Explosionsfähige Atmosphären - Teil 36: Nichtelektrische Geräte für den Einsatz in
explosionsfähigen Atmosphären - Grundlagen und Anforderungen (ISO 80079-36:2016)
Atmosphères explosives - Partie 36: Matériels non électriques destinés à être utilisés en
atmosphères explosives - Méthodologie et exigences (ISO 80079-36:2016)
Ta slovenski standard je istoveten z: EN ISO 80079-36:2016
ICS:
13.230 Varstvo pred eksplozijo Explosion protection
29.260.20 (OHNWULþQLDSDUDWL]D Electrical apparatus for
HNVSOR]LYQDR]UDþMD explosive atmospheres
SIST EN ISO 80079-36:2016 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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

SIST EN ISO 80079-36:2016

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

SIST EN ISO 80079-36:2016


EN ISO 80079-36
EUROPEAN STANDARD

NORME EUROPÉENNE

April 2016
EUROPÄISCHE NORM
ICS 29.260.20 Supersedes EN 13463-1:2009
English Version

Explosive atmospheres - Part 36: Non-electrical equipment
for explosive atmospheres - Basic method and
requirements (ISO 80079-36:2016)
Atmosphères explosives - Partie 36: Appareils non Explosionsfähige Atmosphären - Teil 36: Nicht-
électriques destinés à être utilisés en atmosphères elektrische Geräte für den Einsatz in explosionsfähigen
explosives - Méthodologie et exigences (ISO 80079- Atmosphären - Grundlagen und Anforderungen (ISO
36:2016) 80079-36:2016)
This European Standard was approved by CEN on 18 February 2016.

CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this
European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references
concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN
member.

This European Standard exists in three official versions (English, French, German). A version in any other language made by
translation under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management
Centre has the same status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania,
Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and
United Kingdom.





EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2016 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN ISO 80079-36:2016 E
worldwide for CEN national Members.

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

SIST EN ISO 80079-36:2016
EN ISO 80079-36.2016 (E)
Contents Page
European Foreword . 3
Annex ZA (informative) Relationship between this European Standard and the Essential
Requirements of EU Directive 2014/34/EU . 4
Annex ZB (informative) Correspondence of equipment groups . 6
Annex ZC (informative) Significant changes between this European Standard and EN 13463-
1:2009 . 7

2

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

SIST EN ISO 80079-36:2016
EN ISO 80079-36.2016 (E)
European Foreword
This document (EN ISO 80079-36:2016) has been prepared by Technical Committee ISO/TMBG
"Technical Management Board - groups" in collaboration with Technical Committee CEN/TC 305
“Potentially explosive atmospheres - Explosion prevention and protection” the secretariat of which is
held by DIN.
This European Standard shall be given the status of a national standard, either by publication of an
identical text or by endorsement, at the latest by October 2016, and conflicting national standards shall
be withdrawn at the latest by October 2016.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent
rights.
The significant changes with respect to EN 13463-1:2009 are included in Annex ZB “Significant changes
between this European Standard and EN 13463-1:2009".
This document supersedes EN 13463-1:2009.
This document has been prepared under a mandate given to CEN by the European Commission and the
European Free Trade Association, and supports essential requirements of 2014/34/EU.
For relationship with EU Directive(s), see informative Annex ZA, which is an integral part of this
document.
Extensions to the marking scheme described in the Directive are found in the ATEX Guidelines
published by the European Commission. These are particularly useful for equipment that conforms to
more than one category.
According to the CEN-CENELEC Internal Regulations, the national standards organizations of the
following countries are bound to implement this European Standard: Austria, Belgium, Bulgaria,
Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia,
France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta,
Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Turkey and the United Kingdom.
Endorsement notice
The text of ISO 80079-36:2016 has been approved by CEN as EN ISO 80079-36:2016 without any
modification.
3

---------------------- Page: 5 ----------------------

SIST EN ISO 80079-36:2016
EN ISO 80079-36.2016 (E)
Annex ZA
(informative)

Relationship between this European Standard and the Essential
Requirements of EU Directive 2014/34/EU
This European Standard has been prepared under a mandate given to CEN by the European
Commission and the European Free Trade Association to provide a means of conforming to Essential
Requirements of the New Approach Directive 2014/34/EU.
Once this standard is cited in the Official Journal of the European Union under that Directive and has
been implemented as a national standard in at least one Member State, compliance with the clauses of
this standard given in Table ZA.1 confers, within the limits of the scope of this standard, a presumption
of conformity with the corresponding Essential Requirements of that Directive and associated EFTA
regulations.
Table ZA.1 — Correspondence between this European Standard and Directive 2014/34/EU
Clauses/sub- Essential Requirements (ERs) of Qualifying remarks/Notes
clauses of this EN EU Directive 2014/34/EU
4 1.0.1
1.0.2
5.1 1.0.1
1.0.2
1.0.3
5.2 1.0.2
1.3
6.1 1.3
6.2.1, 6.2.2, 6.2.3 1.2.8
1.3.1
1.4.1
6.2.4 2.0.1
2.0.2
6.2.5, 6.2.6 2.1.1
2.2.1
2.3.1
6.2.7 2.1.2
2.2.2
2.3.2
6.3 1.3.1 reference to EN 1127-1
4

---------------------- Page: 6 ----------------------

SIST EN ISO 80079-36:2016
EN ISO 80079-36.2016 (E)

Table ZA.1 (continued)
Clauses/sub- Essential Requirements (ERs) of Qualifying remarks/Notes
clauses of this EN EU Directive 2014/34/EU
6.4 1.3.4
6.5 1.0.1 reference to EN 60079 series
1.3.1
6.6 1.3.3
6.7 1.3.2
6.8 - 6.9 1.3.1
7.1, 7.2 1.3.4
7.3 1.2.6
7.4 1.1.3
1.4.1
1.4.2
7.5 1.2.2
1.2.6
7.6 1.1.3
1.4.2
7.7 1.1.3
1.4.1
1.4.2
8 1.1.3
1.2.1
1.2.2
1.2.5
9.1 1.0.1
1.0.3
1.0.4
9.5 1.0.6
10 1.0.5
Annexes A - G 1.0.2
1.3.1


WARNING — Other requirements and other EU Directives may be applicable to the product(s) falling
within the scope of this standard.
5

---------------------- Page: 7 ----------------------

SIST EN ISO 80079-36:2016
EN ISO 80079-36.2016 (E)
Annex ZB
(informative)

Correspondence of equipment groups
In all cases Equipment Protection Levels (EPL) as defined by EN 60079-0 are related to the
corresponding Equipment Groups and Equipment Categories according to the following table. The same
applies if a standard makes reference to the intended use of equipment in Zones according to the
definitions in EN 60079-10.
Table ZB.1 — Correspondence of equipment groups
EN 60079-0 Directive 2014/34/EU EN 60079-10-1 and
EN 60079-10-2
EPL Group Equipment Equipment Zones
Group Category
Ma I I M1 NA
Mb M2
Ga II II 1G 0
Gb 2G 1
Gc 3G 2
Da III 1D 20
Db 2D 21
Dc 3D 22

Instructions
The manufacturer or his authorized representative in the Community is to draw up the instructions for
use in the required Community languages.
Marking
The marking according to this standard is to be supplemented by the marking according to Directive
2014/34/EU. Examples are given below.
European marking examples
Directive part Standard part Equipment example
Ex h I Mb Non-electrical equipment for Mining Industry,
I M2
Ex h IIB T4 Gb Non-electrical equipment intended to be used in
II 2 G
Surface Industry classified as Gas Explosive
Atmosphere - Zone1
Ex h IIIC 120°C Da Non-electrical equipment intended to be used in
II 1 D
Surface Industry classified as Explosive
Atmosphere of Combustible Dust - Zone 20
6

---------------------- Page: 8 ----------------------

SIST EN ISO 80079-36:2016
EN ISO 80079-36.2016 (E)
Annex ZC
(informative)

Significant changes between this European Standard and
EN 13463-1:2009
This European Standard supersedes EN 13463-1:2009
Table ZC.1 — Significant changes between this European Standard and EN 13463-1:2009
Modifications significatives Clause Minor and Extensions Extensions
formal
changes
Introduction of new definitions and slight Clause 3 X
redefinitions concerning ignition sources to improve

ignition hazard assessment
Introduction of Equipment Protection Level instead Clause  X
of Category relating to ATEX Directive 4.1

Introduction of Dust groups defined as Group IIIA, Clause  X
IIIB, & IIIC 4.4

Introduction in the instructions for safe use and Clause  X
required maintenance for the equipment shall be 5.1
specified by the manufacturer

Change of wording regarding the formal Ignition Clause X
hazard identification and assessment 5.2.1

Introduction of what the assessment shall show Clause  X
5.2.2.1
Change of wording regarding EPL Mb equipment Clause X
requirment 5.2.2.2
Introduction of a new note regarding the risk of Clause  X
ignition due to other ignition source 6.1

Change of wording regarding the ambient Clause X
temperature 6.2.2
Introduction of a new note regarding the option to Clause  X
calculate maximum temperatures 6.2.3
Introduction of a new note regarding the layers of Clause  X
coal dust 6.2.3
Introduction of a new note regarding the instructions Clause  X
6.2.5


7

---------------------- Page: 9 ----------------------

SIST EN ISO 80079-36:2016
EN ISO 80079-36.2016 (E)
Table ZC.1 (continued)
Modifications significatives Article Minor and Extensions Extensions
formal
changes
Introduction of a new column regarding requirement Clause  X
for T5 classification 6.2.6.1
Introduction of two new notes regarding the Clause  X
enclosed volume 6.2.6.2

Introduction of requirement regarding External hot Clause  X
surfaces 6.2.6.3

NOTE 1 The technical changes referred to include the significant technical changes from the revised EN but this
is not an exhaustive list of all modifications from the previous version.
Explanations:
A) Definitions
Minor and editorial changes clarification
 decrease of technical requirements
 minor technical change
 editorial corrections

Changes in a standard classified as ‘Minor and editorial changes’ refer to changes regarding the
previous standard, which modify requirements in an editorial or a minor technical way. Also changes of
the wording to clarify technical requirements without any technical change are classified as ‘Minor and
editorial changes’.
A reduction in level of existing requirement is also classified as ‘Minor and editorial changes’
Extension addition of technical options

Changes in a standard classified as ‘extension’ refers to changes regarding the previous standard, which
add new or modify existing technical requirements, in a way that new options are given, but without
increasing requirements for equipment that was fully compliant with the previous standard. Therefore
these ‘extensions’ will not have to be considered for products in conformity with the preceding edition.
8

---------------------- Page: 10 ----------------------

SIST EN ISO 80079-36:2016
EN ISO 80079-36.2016 (E)

Major technical changes addition of technical requirements
 increase of technical requirements

Changes in a standard classified as ‘Major technical change’ refer to changes regarding the previous
standard, which add new or increase the level of existing technical requirements, in a way that a
product in conformity with the preceding standard will not always be able to fulfil the requirements
given in the standard. ‘Major technical changes’ have to be considered for products in conformity with
the preceding edition. For every change classified as ‘Major Technical Change’ additional information is
provided in clause B) of the Annex ZB.
1
NOTE 2 These changes represent current technological knowledge . However, these changes should not
normally have an influence on equipment already placed on the market.
B) Information about the background of ‘Major Technical Changes’
None

1
see also ATEX Guideline 10.3 and Annex ZA
9

---------------------- Page: 11 ----------------------

SIST EN ISO 80079-36:2016

---------------------- Page: 12 ----------------------

SIST EN ISO 80079-36:2016



ISO 80079-36


Edition 1.0 2016-02




INTERNATIONAL



STANDARD




NORME



INTERNATIONALE











Explosive atmospheres –

Part 36: Non-electrical equipment for explosive atmospheres – Basic method

and requirements




Atmosphères explosives –

Partie 36: Appareils non électriques destinés à être utilisés en atmosphères


explosives – Méthodologie et exigences













INTERNATIONAL

ELECTROTECHNICAL

COMMISSION


COMMISSION

ELECTROTECHNIQUE


INTERNATIONALE




ICS 13.230; 29.260.20 ISBN 978-2-8322-3202-6



Warning! Make sure that you obtained this publication from an authorized distributor.

Attention! Veuillez vous assurer que vous avez obtenu cette publication via un distributeur agréé.

---------------------- Page: 13 ----------------------

SIST EN ISO 80079-36:2016
– 2 – ISO 80079-36:2016  ISO 2016
CONTENTS
FOREWORD . 6
INTRODUCTION . 8
1 Scope . 9
2 Normative references. 14
3 Terms and definitions . 15
4 EPL and equipment groups . 18
4.1 EPL . 18
4.2 Group I . 18
4.3 Group II . 18
4.4 Group III . 19
4.5 Equipment for specific explosive gas atmospheres . 19
5 Ignition hazard assessment . 19
5.1 General requirements . 19
5.2 Procedure of ignition hazard assessment . 20
5.2.1 Formal Ignition hazard identification and assessment . 20
5.2.2 Group I equipment assessment . 21
5.2.3 Group II and III equipment assessment . 21
5.2.4 Assessment with malfunctions . 22
5.2.5 Basic information necessary for the ignition hazard assessments . 22
5.2.6 Ignition hazard assessment report . 22
6 Assessment of possible ignition sources and control means . 23
6.1 General . 23
6.2 Hot surfaces . 23
6.2.1 General . 23
6.2.2 Ambient temperatures . 23
6.2.3 Establishing the maximum surface temperature . 23
6.2.4 Group I equipment . 24
6.2.5 Group II equipment . 24
6.2.6 Special cases for Group I and Group II equipment . 25
6.2.7 Group III equipment . 26
6.3 Flames and hot gases (including hot particles) . 26
6.4 Mechanically generated sparks and hot surfaces . 26
6.4.1 General . 26
6.4.2 Assessment of sparks generated by single impacts . 26
6.4.3 Assessment of sparks and hot surfaces generated by friction . 28
6.4.4 External equipment parts containing light metals. 29
6.5 Electrical ignition sources except stray current . 29
6.6 Stray electric currents, cathodic corrosion protection . 29
6.6.1 Internal sources . 29
6.6.2 External sources . 29
6.7 Static electricity. 29
6.7.1 General . 29
6.7.2 Connection facilities for earthing conducting parts . 30
6.7.3 Prevention of highly efficient charge generating mechanisms (leading to
propagating brush discharges on non-conductive layers and coatings) . 30
6.7.4 Equipment group I . 30

---------------------- Page: 14 ----------------------

SIST EN ISO 80079-36:2016
ISO 80079-36:2016  ISO 2016 – 3 –
6.7.5 Equipment group II . 31
6.7.6 Equipment group III . 31
6.8 Adiabatic compression and shock waves . 32
6.9 Exothermic reactions, including self-ignition of dusts . 32
7 Additional considerations . 32
7.1 Dust deposits and other material in the gap of moving parts . 32
7.2 Dust deposits and other material in the flame arresters incorporated in the
equipment . 33
7.3 Opening times of enclosures . 33
7.4 Non-metallic enclosures and non-metallic parts of the equipment . 33
7.4.1 General . 33
7.4.2 Specification of the materials . 33
7.4.3 Thermal endurance . 33
7.5 Removable parts . 33
7.6 Materials used for cementing . 33
7.7 Light transmitting parts . 34
7.8 Stored energy . 34
8 Verification and tests . 34
8.1 General . 34
8.2 Determination of the maximum surface temperature . 34
8.2.1 General . 34
8.2.2 Hot Surface Ignition Test . 36
8.3 Mechanical tests . 37
8.3.1 Test for resistance to impact . 37
8.3.2 Drop test . 37
8.3.3 Required results . 37
8.4 Additional tests of non-metallic parts of the equipment relevant for explosion
protection . 37
8.4.1 Test temperatures . 37
8.4.2 Tests for Group I equipment . 37
8.4.3 Tests for Group II and III equipment . 38
8.4.4 Thermal endurance to heat . 38
8.4.5 Thermal endurance to cold . 39
8.4.6 Resistance to chemical substances for Group I equipment . 39
8.4.7 Mechanical resistance tests . 39
8.4.8 Surface resistance test of non-conductive parts of the equipment
relevant for explosion prevention and protection . 39
8.4.9 Thermal shock test . 39
9 Documentation . 39
9.1 Technical documentation . 39
9.2 Conformity with the documentation . 40
9.3 Certificate . 40
9.4 Responsibility for marking . 40
10 Instructions. 40
11 Marking . 41
11.1 Location . 41
11.2 General . 41
11.3 Warning markings . 42
11.4 Marking on very small equipment . 43

---------------------- Page: 15 ----------------------

SIST EN ISO 80079-36:2016
– 4 – ISO 80079-36:2016  ISO 2016
11.5 Examples of marking . 43
Annex A (informative) Methodology for confirming the EPL . 44
A.1 Methodology for confirming the EPL of Group I . 44
A.1.1 EPL Ma . 44
A.1.2 EPL Mb . 44
A.2 Methodology for confirming the EPL of Group II and III . 44
A.2.1 EPL Ga and Da . 44
A.2.2 EPL Gb and Db . 44
A.2.3 EPL Gc and Dc . 44
Annex B (informative) Explanation of the ignition hazard assessment procedure . 45
B.1 Overview. 45
B.1.1 General . 45
B.1.2 Reporting with the help of a table . 45
B.2 Assessment Procedure . 45
B.3 Assessment Steps . 46
B.3.1 Identification of Ignition Hazards . 46
B.3.2 Determination of measures . 47
B.3.3 Concluding ignition hazard estimation and categorisation . 48
B.3.4 Determination of the EPL . 48
Annex C (informative) Examples of ignition hazard assessment . 49
C.1 General remarks . 49
C.2 Examples for common cases demonstrating the use of the scheme . 49
C.3 Example of an ignition hazard assessment for a pump . 56
C.4 Example of an ignition hazard assessment for an agitator . 60
Annex D (normative) Charging tests with non-conductive materials . 71
D.1 General . 71
D.2 Principle of the test . 71
D.3 Samples and apparatus .
...

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

SIST
SIST EN ISO 80079-36:2016/AC:2020(Corrigendum)
Explosive atmospheres - Part 36: Non-electrical equipment for explosive atmospheres - Basic method and requirements - Technical Corrigendum 1 (ISO 80079-36:2016/Cor 1:2019)
EN ISO 80079-36:2016/AC:2019

2021-03-25 CV: rejected for OJEU citation but corrigenda are out of EY scope

  • Corrigendum
    5 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN 50271:2018(Main)
Electrical apparatus for the detection and measurement of combustible gases, toxic gases or oxygen - Requirements and tests for apparatus using software and/or digital technologies
EN 50271:2018

This European Standard specifies minimum requirements and tests for electrical apparatus for the detection and measurement of combustible gases, toxic gases or oxygen using software and/or digital technologies.
This European Standard is applicable to fixed, transportable and portable apparatus intended for use in domestic premises as well as commercial and industrial applications.
This European Standard does not apply to external sampling systems, or to apparatus of laboratory or scientific type, or to apparatus used only for process control purposes.
This European Standard supplements the requirements of the European Standards for the detection and measurement of flammable gases and vapours (e.g. EN 60079 29 1, EN 60079-29-4, EN 50194 1, EN 50194 2), toxic gases (e.g. EN 45544 series, EN 50291 1, EN 50291 2) or oxygen (e.g. EN 50104).
NOTE 1 These European Standards will be mentioned in this European Standard as "metrological standards".
NOTE 2 The examples above show the state of the standardisation for gas detection apparatus at the time of publishing this European Standard. There may be other metrological standards for which this European Standard is also applicable.
This European Standard is a product standard which is based on EN 61508 series. It covers part of the phase 10 "realisation" of the overall safety life cycle defined in EN 61508 1.
Additional requirements are specified if compliance with safety integrity level 1 (SIL 1) according to EN 61508 series is claimed for fixed or transportable apparatus for low demand mode of operation.
NOTE 3 Compliance with safety integrity level 1 (SIL 1) for portable apparatus is not considered because portable apparatus cannot make an automatic executive action.
It is recommended to apply this European Standard for apparatus used for safety applications with SIL-requirement 1 instead of EN 50402. However, the technical requirements of EN 50271 and EN 50402 are the same for SIL 1.
NOTE 4 For apparatus used for safety applications with SIL-requirements higher than 1 EN 50402 is applicable.

  • Standard
    32 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN 14460:2018(Main)
Explosion resistant equipment
EN 14460:2018

This standard specifies requirements for explosion pressure resistant and explosion pressure shock-resistant equipment. This standard is applicable to process vessels and systems. It is not applicable to individual items of equipment such as motors and gearboxes that may be designed to withstand an internal explosion, which are subject of EN 13463-3. This standard is valid for atmospheres having pressures ranging from 800 hPa to 1100 hPa and temperatures ranging from -20 °C to +60 °C. This standard applies to equipment and combinations of equipment where deflagrations may occur and is not applicable to equipment and combination of equipment where detonation may occur. It is essential that this standard be used for equipment made of metallic materials only.

  • Standard
    36 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN 50402:2017(Main)
Electrical apparatus for the detection and measurement of combustible or toxic gases or vapours or of oxygen - Requirements on the functional safety of gas detection systems
EN 50402:2017

This European Standard is applicable to apparatus and systems for the detection and measurement of flammable or toxic gases or vapours or oxygen.
This European Standard is a product standard which is based on EN 61508 (all parts) and for gas detection systems covers both low and high demand mode at SIL capabilities of 1, 2 or 3 only. Gas detection apparatus and gas detection systems are developed as generic products. This standard covers part of the phase 10 “realisation” of the overall safety lifecycle defined in Figure 2 of EN 61508-1:2010. Configuration and integration into specific applications is not covered by this standard.
In the event of conflict between the requirements of this standard and those of EN 61508, EN 50402 will take precedence.
NOTE 1   Applications requiring a SIL capability of 4 for a gas detection system are not practicable.
NOTE 2   This European Standard is dedicated mainly to fixed apparatus. For portable gas detectors claiming a SIL higher than 1, this European Standard may be applied.
This European Standard supplements the requirements of the European Standards for electrical apparatus for the detection and measurement of flammable gases, vapours (e.g. EN 60079-29-1 or EN 60079-29-4), toxic gases (e.g. EN 45544) or oxygen (e.g. EN 50104).
NOTE 3   These European Standards are called in the text "metrological standards".
The examples above show the state of the standardisation for industrial applications at the time of publishing this European Standard. There may be other metrological standards covering other application fields, for which this European Standard is also applicable.
EN 50271 specifies minimum requirements for apparatus using software and/or digital components. It also defines additional optional requirements for compliance with SIL 1 in low demand mode operation. EN 50402 includes all requirements of EN 50271.
EN 50402 is also dedicated to apparatus and gas detection systems and/or components and should be used instead of EN 50271 in the following cases:
-   At SIL 1 when the system contains components not covered by EN 50271;
-   At SIL 2 and SIL 3;
-   At all SILs when non-digital based apparatus is used.
Applying the above-mentioned metrological standards will ensure the measuring performance is adequate in normal operation of a gas detection system. Additionally the requirements of this European Standard address the functional safety of gas detection systems and encompass criteria for reliability, fault tolerance and avoidance of systematic failures. The avoidance and control of systematic failures will be covered by the requirements for the development processes and techniques and diagnostic measures chosen in the design. This European Standard will lead to the characterisation of the gas detection system by a SIL-capability and related hardware failure rate representing a hierarchical order of safety levels. This will allow the user to incorporate the gas detection system into an overall safety system according to the safety integrity levels of EN 61508 (all parts).
This European Standard is applicable for gas detection systems, which may consist of the following functional units:
-   gas-sampling;
-   sensor;
-   signal transmission;
-   input to control unit;
-   signal processing in control unit;
-   output from control unit.
This European Standard does not specify requirements for the installation and maintenance of gas detection systems. It also does not specify the physical positioning of measuring points / locations.
This European Standard does not specify which SIL-capability is sufficient for which application.
NOTE 4   The SIL-capability required for an application will be specified by the user (see Clause 9 and Annex A ).

  • Standard
    98 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN ISO 80079-37:2016(Main)
Explosive atmospheres - Part 37: Non-electrical equipment for use in explosive atmospheres - Non-electrical type of protection constructional safety 'c', control of ignition sources 'b', liquid immersion 'k' (ISO 80079-37:2016)
EN ISO 80079-37:2016

This International standard specifies the requirements for the design and construction of non-electrical equipment, intended for use in explosive atmospheres, protected by the types of protection Constructional Safety , Control of ignition source, Liquid immersion .
This standard supplements the requirements in IEC 80079-36, the contents of which also apply in full to equipment constructed in accordance with this standard.

  • Standard
    58 pages
    English language
    sale 10% off
    e-Library read for
    1 day
  • Draft
    60 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN 60079-29-3:2014(Main)
Explosive atmospheres - Part 29-3: Gas detectors - Guidance on functional safety of fixed gas detection systems ( IEC 60079-29-3:2014)
EN 60079-29-3:2014

EN IEC 60079-29-3 gives guidance for the design and implementation of a fixed gas detection system, including associated and/or peripheral gas detection equipment, for the detection of flammable gases/vapours and Oxygen when used in a safety-related application in accordance with IEC 61508 and IEC 61511. This International standard also applies to the detection of toxic gases. Other parts of this international standard and pertinent local, national and international standards separately specify the performance requirements of a gas detector and a gas detection control unit (logic solver). These standards are commonly known as Metrological Performance Standards and are concerned with the accuracy of the measured value, the overall system performance, but not the device or system integrity with respect to the safety function. This international standard applies to the integrity of the safety function. This international standard sets out safety-related considerations of fixed gas detection systems, including associated and/or peripheral gas detection equipment in terms of the framework and philosophy of IEC 61508, and introduces the particular requirements demanded by a fixed gas detection system as shown in Figure 2. This international standard does not consider the Safety Integrity Level SIL 4. SIL 4 is assumed to be unrealistic to be achieved for gas detection systems. This international standard is applicable for fixed gas detection systems, which might consist of the following hardware functional units - Gas sensor/transmitter - Gas detection control unit (logic solver) - Gas sampling (single and multiplexed streams) - Gas conditioning - Automatic gas calibration and adjustment - Output module (if not part of the control unit).

  • Standard
    49 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST EN 50495:2010(Main)
Safety devices required for the safe functioning of equipment with respect to explosion risks
EN 50495:2010

This European Standard specifies the requirements of electrical safety devices, which are used to avoid potential ignition sources of equipment in explosive atmospheres. This also includes safety devices, which are operated outside areas with explosive atmospheres, to guarantee the safe function of equipment with respect to explosion hazards.

  • Standard
    37 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
SIST-TP CLC/TR 50426:2005(Main)
Assessment of inadvertent initiation of bridge wire electro-explosive devices by radio-frequency radiation - Guide
CLC/TR 50426:2004

This standard provides guidance in assessing the potential ignition hazard from the inadvertent extraction of energy from electromagnetic fields, propagated from communication, radar or other transmitting aerials to plant where a potentially flammable atmosphere may be present. The standard is not concerned with similar hazards arising from electromagnetic fields generated by other means, such as electric storms, electricity generating installations or other radiating electrical equipment, nor is it concerned with any hazard arising within telecommunications or oter electronic equipment

  • Technical report
    101 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
oSIST prEN ISO/IEC 80079-49:2022(Main)
Explosive atmospheres - Part 49: Flame arresters - Performance requirements, test methods and limits for use (ISO/IEC/DIS 80079-49:2022)
prEN ISO/IEC 80079-49

2022-09-29 - DOW = DAV + 24months (CEN/TC 305 427/2022 )

  • Draft
    66 pages
    English language
    sale 10% off
    e-Library read for
    1 day
SIST
oSIST prEN ISO/IEC 80079-41:2023(Main)
Explosive atmospheres - Part 41: Reciprocating internal combustion engines (ISO/IEC DIS 80079-41:2023)
prEN ISO/IEC 80079-41

This part of ISO/IEC 80079 covers the technical requirements necessary to avoid or minimize the significant hazards listed in Clause 4, which could occur during normal operation, maintenance or foreseeable malfunction of reciprocating internal combustion engines intended for use in explosive atmospheres including
- Group I EPL Mb for use in underground workings susceptible to firedamp and/or combustible dust,
- Group II EPL Gb and Gc for use in potentially explosive atmospheres of flammable gas and vapour and
- Group III EPL Db and Dc for use in potentially explosive atmospheres of combustible dust.
This part of ISO/IEC 80079 includes those tests of the engine and its ancillary devices that are required to verify compliance.
This part of ISO/IEC 80079 applies to reciprocating internal combustion engines with compression ignition and spark ignition.
This part of ISO/IEC 80079 does not define requirements relating to the driven machinery and equipment.
This part of ISO/IEC 80079 does not apply
- to flammable gas and vapour atmospheres containing carbon disulphide (CS2) and/or ethylene oxide (C2H4O) due to special properties of these gases;
- to explosive mixtures of vapours and gases, which tend to self-decompose (e.g. acetylene) or which are chemically unstable.This International standard does not apply to engines used in areas for the processing manufacture or storage of explosives;
- to gasoline engines and all other liquid injection spark ignited engines.
This part of ISO/IEC 80079 solely deals with explosion protection requirements. Requirements on emissions are not covered by this standard.
General safety requirements are not included in this International Standard.
NOTE 1   General safety requirements i.e. those common to internal combustion engines, are covered for the EU in EN 1679-1:1998+A1:2011.
This part of ISO/IEC 80079 does not specify requirements for safety, other than those directly related to the risk of ignition which may then lead to an explosion.The standard atmospheric conditions (relating to the explosion characteristics of the atmosphere) under which it may be assumed that engine can be operated are:
- temperature -20 °C to +40 °C;
- pressure 80 kPa (0,8 bar) to 110 kPa (1,1 bar); and
- air with normal oxygen content, typically 21 % v/v.
Such atmospheres can also exist inside the engine. In addition, the external atmosphere can be drawn inside the engine by natural breathing produced as a result of fluctuations in the engine's internal operating pressure, and/or temperature.
NOTE 2   It is considered that −20 °C to +40 °C is appropriate for most engines. However for equipment designed for outside this range IEC/TS 60079-43 should be considered.
NOTE 3   The requirements of this standard can also be helpful for the design, construction, testing and marking of engine intended for use in atmospheres outside the validity range stated above. In this case however, the ignition hazard assessment, ignition protection provided, additional testing (if necessary), manufacturer’s technical documentation and instructions to the user, should clearly demonstrate and indicate the engine's suitability for the conditions it may encounter. It should also be recognized that changes in temperature and pressure can have a significant influence on characteristics of the explosive atmosphere, such as ignitability (see Annex I).
NOTE 4   Reciprocating internal combustion engines are not considered as pressure vessels.

  • Draft
    132 pages
    English language
    sale 10% off
    e-Library read for
    1 day