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SIST EN 13463-6:2005

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Non-electrical equipment for use in potentially explosive atmospheres - Part 6: Protection by control of ignition source 'b'

Non-electrical equipment for use in potentially explosive atmospheres - Part 6: Protection by control of ignition source 'b'

This EN specifies a type of protection for non-electrical equipment which can be applied to equipment of categories 2 and 1. By means of mechanical or electrical operating control or monitoring devices, effective ignition sources are avoided. The standard covers the basic requirements for the design and the concept of application of this type of protection.

Nicht-elektrische Geräte für den Einsatz in explosionsgefährdeten Bereichen - Teil 6: Schutz durch Zündquellenüberwachung 'b'

In diesem Dokument werden die Anforderungen an die Konstruktion und den Bau von Geräten für den Einsatz in explosionsgefährdeten Bereichen festgelegt, die durch die Schutzart Zündquellenüberwachung "b" geschützt sind.
Dieses Dokument ist eine Ergänzung zu den in EN 13463 1 gegebenen Anforderungen, deren gesamter Inhalt ebenfalls auf Geräte zutrifft, die nach dem vorliegenden Dokument gebaut wurden.
Geräte, die mit den entsprechenden Abschnitten dieses Dokuments übereinstimmen, erfüllen die Anforderungen der folgenden Kategorien:
-   Gerätegruppe I, Kategorie M2 - Geräte, die keine durch schwere Betriebsbedingungen, besonders durch raue Handhabung und wechselnde Umgebungsbedingungen in Bergwerken, hervorgerufene Zündquelle enthalten;
-   Gerätegruppe II, Kategorie 3 - Geräte, die im Normalbetrieb keine Zündquelle enthalten;
-   Gerätegruppe II, Kategorie 2G oder 2D - Geräte, die keine durch vorhersehbare Störungen entstehende Zündquelle enthalten;
-   Gerätegruppe II, Kategorie 1G oder 1D - Geräte, die bei Normalbetrieb, vorhersehbaren Störungen oder seltenen Störungen keine Zündquelle enthalten.
ANMERKUNG   Die Anforderungen an Geräte der Gruppe I, Kategorie M1, sind in der Norm EN 50303 enthalten, die die Anforderungen sowohl für elektrische als auch für nicht elektrische Geräte festlegt.
Diese Schutzart kann angewendet werden, um Geräte der Kategorie 3 herzustellen, die andernfalls eine Zündquelle im Normalbetrieb hätten; d. h. nicht mit EN 13463-1 übereinstimmen würden.
Die in der Norm beschriebene Zündschutzart kann entweder für sich genommen oder zusammen mit anderen Zündschutzarten angewendet werden, um die Anforderungen an Geräte der Gruppe I, Kategorie M2 oder der Gruppe II, Kategorien 1, 2 und 3 zu erfüllen, abhängig vom Ergebnis der nach EN 13463 1 ausgeführten Zündgefahrenbewertung.

Appareils non électriques destinés a etre utilisés en atmospheres explosibles - Partie 6: Protection par contrôle de la source d'inflammation 'b'

Le présent document spécifie les exigences relatives a la conception et a la fabrication des appareils destinés a etre utilisés dans des atmospheres explosibles, protégés par le mode de protection : Contrôle de la source d'inflammation "b".
Il complete les exigences de l'EN 13463 1 dont le contenu s'applique également en totalité aux appareils construits conformément au présent document.
Les appareils conformes aux articles correspondants du présent document répondent aux exigences des catégories suivantes :
-   appareils de la catégorie M2 du groupe I - qui ne contiennent pas de source d'inflammation provenant de conditions l'exploitation contraignantes, en particulier de manipulations brutales et de conditions ambiantes variables dans les mines ;
-   appareils de la catégorie 3 du groupe II - qui ne contiennent pas de source d'inflammation lors d'un fonctionnement normal ;
-   appareils des catégories 2G ou 2D du groupe II - qui ne contiennent pas de source d'inflammation pouvant résulter de dysfonctionnements prévisibles ;
-   appareils de la catégorie 1G ou 1D du groupe II - qui ne contiennent pas de source d'inflammation lors d'un fonctionnement normal ou dans les cas de dysfonctionnements prévisibles ou dans des cas de dysfonctionnements rares.
NOTE   Les exigences relatives aux appareils de la catégorie M1 du groupe I sont données dans l'EN 50303 qui définit les exigences correspondant aux appareils électriques et non électriques.
Ce mode de protection peut etre utilisé pour produire des appareils de la catégorie 3 qui, autrement, contiendraient une source d'inflammation lors d'un fonctionnement normal, c'est-a-dire qui ne peuvent pas etre conformes a l'EN 13463-1.
Le mode de protection contre l'inflammation décrit dans la norme peut etre utilisé soit seul, soit en combinaison avec d'autres modes de protection contre l'inflammation pour répondre aux exigences des appareils des catégories M2 du groupe I ou des catégories 1, 2 et 3 du groupe II en fonction de l'

Neelektrična oprema za uporabo v potencialno eksplozivnih atmosferah - 6. del: Zaščita s kontrolo virov vžiga "b"

General Information

Status
Withdrawn
Publication Date
30-Jun-2005
Withdrawal Date
17-May-2016
ICS
13.230 - Explosion protection
Technical Committee
EXP - Electrical apparatus for explosive atmospheres
Current Stage
9900 - Withdrawal (Adopted Project)
Start Date
14-Apr-2016
Due Date
07-May-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 13463-6:2005 - Non-electrical equipment for use in potentially explosive atmospheres - Part 6: Protection by control of ignition source 'b'

Relations

Replaced By
SIST EN ISO 80079-37:2016 - 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)
Effective Date
13-Apr-2016

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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Non-electrical equipment for use in potentially explosive atmospheres - Part 6: Protection by control of ignition source 'b'Appareils non électriques destinés a etre utilisés en atmospheres explosibles - Partie 6: Protection par contrôle de la source d'inflammation 'b'Nicht-elektrische Geräte für den Einsatz in explosionsgefährdeten Bereichen - Teil 6: Schutz durch Zündquellenüberwachung 'b'13.230Varstvo pred eksplozijoExplosion protectionICS:SIST EN 13463-6:2005enTa slovenski standard je istoveten z:EN 13463-6:200501-julij-2005SIST EN 13463-6:2005SLOVENSKI
STANDARD







EUROPEAN STANDARDNORME EUROPÉENNEEUROPÄISCHE NORMEN 13463-6April 2005ICS 13.230English versionNon-electrical equipment for use in potentially explosiveatmospheres - Part 6: Protection by control of ignition source 'b'Appareils non électriques destinés à être utilisés enatmosphères explosibles - Partie 6: Protection par contrôlede la source d'inflammation 'b'Nicht-elektrische Geräte für den Einsatz inexplosionsgefährdeten Bereichen - Teil 6: Schutz durchZündquellenüberwachung 'b'This European Standard was approved by CEN on 15 March 2005.CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this EuropeanStandard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such nationalstandards may be obtained on application to the Central Secretariat or to any CEN member.This European Standard exists in three official versions (English, French, German). A version in any other language made by translationunder the responsibility of a CEN member into its own language and notified to the Central Secretariat has the same status as the officialversions.CEN members are the national standards bodies of Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France,Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Slovakia,Slovenia, Spain, Sweden, Switzerland and United Kingdom.EUROPEAN COMMITTEE FOR STANDARDIZATIONCOMITÉ EUROPÉEN DE NORMALISATIONEUROPÄISCHES KOMITEE FÜR NORMUNGManagement Centre: rue de Stassart, 36
B-1050 Brussels© 2005 CENAll rights of exploitation in any form and by any means reservedworldwide for CEN national Members.Ref. No. EN 13463-6:2005: E



EN 13463-6:2005 (E) 2 Contents Page Foreword.3 Introduction.4 1 Scope.6 2 Normative references.7 3 Terms and definitions.7 4 Determination of suitability.7 5 Determination of the control parameters.8 6 Ignition prevention system design and settings.8 7 Ignition protection of sensors and actuators.9 8 Ignition prevention levels (IPL) of the ignition prevention system.9 9 Type tests.11 10 Instructions for use.11 11 Marking.12 Annex A (informative)
Flow diagram of the procedures described in this document.13 Annex B (informative)
Thought process used to assign IPLs to different categories of equipment.14 Annex C (informative)
Background information on EN 954-1 and EN 61508.15 Annex ZA (informative)
Relationship between this European Standard and the Essential Requirements of EU Directive 94/9/EC.16 Bibliography.21



EN 13463-6:2005 (E) 3 Foreword This document (EN 13463-6:2005) has been prepared by 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 2005, and conflicting national standards shall be withdrawn at the latest by October 2005. 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 EU Directive 94/9/EC of 23 March 1994. For relationship with EU Directive(s), see informative Annex ZA, which is an integral part of this document. This document is to specify the requirements for the type of protection "Control of ignition sources" for equipment intended for use in potentially explosive atmospheres and should be used in conjunction with EN 13463-1 " Non-electrical equipment for potentially explosive atmospheres – Part 1: Basic method and requirements”. According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following countries are bound to implement this European Standard: Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.



EN 13463-6:2005 (E) 4 Introduction Many types of non-electrical equipment intended for use in potentially explosive atmospheres of gas, vapour, mist and/or combustible dust, do not contain an effective ignition source in normal operation. However, there is a risk that an ignition source might arise in such equipment if the moving parts suffer a malfunction or an abnormal operation occurs.
An example of this is a fan, having high speed rotating blades fixed to a shaft, supported on rolling element bearings, inside a stator. In normal operation, no frictional ignition sources should be present. However, because the clearances between the rotor and stator are very small, malfunctions such as the collapse of a shaft bearing, distortion of a rotating blade, build up of foreign material on a rotating blade, etc. could cause the clearance to be reduced and frictional sparking, or hot surfaces, to occur.
To prevent potential ignition sources from becoming effective during normal operation, malfunction and rare malfunction, it is possible to incorporate sensors into the equipment to detect impending dangerous conditions and initiate control measures at an early stage of deterioration before the potential sources are converted into effective sources. The control measures applied, may be initiated automatically, via direct connections between the sensors and the ignition prevention system, or manually, by providing a warning to the equipment operator (With the intention of the operator applying the ignition prevention measures e.g. by stopping the equipment). In this document, the incorporation of such sensors and their associated automatic/manual ignition prevention measures, to prevent potential ignition sources becoming effective ignition sources, is known as protection by “Control of ignition source ‘b’ ” This type of ignition protection, and the devices used to achieve it, can take many forms. In practice, they may be mechanical, electrical, optical, visual or a combination of all of these. Although this document deals with the ignition protection of non-electrical equipment, it nevertheless has to take account of the fact that an increasing amount of non-electrical equipment makes use of electrical sensors to detect and initiate the ignition prevention measures. It is therefore impossible to produce a non-electrical equipment protection standard without making reference to the use of electrical sensors and their associated ignition prevention system circuits. Some examples of mechanical sensor / actuator devices are: a) fuseable plugs (as used in fluid couplings), that melt to release the energy contained in the power transmission fluid before the temperature of ignition capable parts exceed allowable limits; b) centrifugal speed governors, that directly control the power throttle and prevent rotating parts attaining frictional ignition capable rotational speeds; c) thermostatic valves, that close to reduce the input energy, or open to increase the amount of coolant, thereby preventing ignition capable temperatures being attained; d) pressure relief valves (using springs or weights), that open to limit pressure levels and consequent temperature rise during gas compression. Alternatively, to protect against catastrophic failure leading to the exposure of unintended hot surfaces. Some examples of combined electro-mechanical sensor / actuator devices are: e) temperature, flow and level monitoring/control devices, that detect temperature / flow / level and initiate a solenoid valve to reduce the input energy, or increase the amount of coolant, f) optical pulse counters, that sense abnormal rotational speeds on the teeth of gears and send signals to a speed controller, g) vibration sensors, that detect abnormal vibration, from e.g. rolling element bearings, before they fail (usually indicated by high frequency vibrations), or rotating parts that are becoming out of dynamic balance (usually indicated by low frequency vibrations),



EN 13463-6:2005 (E) 5 h) conveyor belt alignment devices, that detect unintended frictional rubbing between the moving belt and fixed parts of the supporting structure, i) power transmission belt tension devices, that detect frictional slippage between the drive pulley and power transmission belt, due to loss of belt tension, j) wear detectors on clutches, which detect unacceptable wear likely to cause frictional heating by incorrect engagement of the clutch.
Such sensor / actuator control devices may be either, continuously active in normal operation of the equipment (e.g. to control the temperature of category 3 equipment), or be arranged so that they only detect abnormal operation (e.g. to detect impending dangerous over-temperature in category 2 equipment).
As malfunction of any of the above sensors / actuator control devices, may result in failure to apply the appropriate ignition prevention measure, they are critical to the ignition safety related parts of the equipment. This ignition protection standard therefore calls for them to be assessed and suggests a minimum quality for such devices in the form of an ignition prevention level (IPL) that the equipment manufacturer must attempt to achieve.
Thus, to meet the requirements of this document, the non-electrical equipment manufacturer is required to perform both the ignition hazard assessment (required by EN 13463-1), and additionally, an evaluation, to determine the ignition prevention level (IPL) necessary to ensure that the sensors / ignition prevention system function when they are called upon to contain the ignition risk within tolerable limits. A flow diagram is provided at Annex A (Figure A.1) to assist the non-electrical equipment manufacturer follow the procedural stages described in this document.



EN 13463-6:2005 (E) 6
1 Scope This document specifies the requirements for the design and construction of equipment, intended for use in potentially explosive atmospheres, protected by the type of protection: Control of ignition source "b". This document supplements the requirements in EN 13463-1, the contents of which also apply in full to equipment constructed in accordance with this document. Equipment conforming with the relevant clauses of this document meet the requirements for the following categories:  Equipment Group I Category M2 – that does not contain an ignition source arising from severe operating conditions, in particular arising from rough handling and changing environmental conditions in mines;  Equipment Group II category 3 – that does not contain an ignition source in normal operation;  Equipment Group II category 2G or 2D – that does not contain an ignition source arising as a result of foreseeable malfunctions;  Equipment Group II category 1G or 1D – that does not contain an ignition source in normal operation, or under foreseeable malfunctions, or under rare malfunctions. NOTE The requirements for Group I, Category M1 equipment, are given in EN 50303, which specifies the requirements for both electrical and non-electrical equipment This type of protection can be used to produce category 3 equipment which otherwise would have an ignition source in normal operation, i.e. it is not able to conform with EN 13463-1 The type of ignition protection described in the standard can be used either on its own or in combination with other types of ignition protection to meet the requirements for equipment of Group I category M2, or Group II categories 1, 2 and 3 depending on the ignition hazard assessment in EN 13463-1.
This document does not apply to:
 control devices which are not intended to provide ignition protection;  the ignition protection of electrical equipment;  equipment shut down systems, initiated by flammable gas detectors, explosive atmosphere detectors, carbon monoxide, fire, or smoke detectors. NOTE This is because this document deals only with the detection and control of impending ignition sources in equipment, not the detection of explosive atmospheres surrounding it. Ignition protection systems conforming to the relevant clauses of this document are not intended to be autonomous protective systems.



EN 13463-6:2005 (E) 7
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. EN 954-1, Safety of Machinery — Safety-related parts of control systems — Part 1: General principles for design. EN 1127-1:1997, Explosive atmospheres — Explosion prevention and protection — Part 1: Basic concepts and methodology. EN 1127-2:2002, Explosive atmospheres — Explosion prevention and protection — Part 2: Basic concepts and methodology for mining. EN 13463-1:2001, Non-electrical equipment for potentially explosive atmospheres — Part 1: Basic method and requirements. EN 60079-0:2004, Electrical apparatus for explosive gas atmospheres — Part 0: General requirements. 3 Terms and definitions For the purposes of this document, the terms and definitions, specific to the type of protection by “Control of ignition source ‘b’”, and given in EN 13463-1:2001, EN 60079-0:2004, EN 1127-1:1997 and EN 1127-2:2002 and the following apply. 3.1 protection by control of ignition source 'b' device in non-electrical equipment, whereby (an) integral sensor(s) detect(s) impending operation likely to cause an ignition of the surrounding atmosphere and initiate either automatic or manual ignition control measures to prevent a potential ignition source becoming an effective ignition source. 3.2 automatic control measure action taken without manual intervention, to prevent a potential ignition source from becoming an effective ignition source 3.3 manual control measure action taken by a person as a result of a warning, indication, or alarm, to prevent a potential ignition source from becoming an effective ignition source 3.4 ignition prevention system (IPS) arrangement that converts signals from one or more sensors into an action, or indication, to prevent a potential ignition source becoming an effective ignition source
3.5 ignition prevention level (IPL) level assigned to the ignition prevention system characterized by its reliability 4 Determination of suitability Before a decision is made to protect equipment, including interconnecting parts, by the measures described in this document, it shall be subjected to the ignition hazard assessment in accordance with EN 13463-1.



EN 13463-6:2005 (E) 8 5 Determination of the control parameters
5.1 Where the ignition hazard assessment described in Clause 4 has revealed potential ignition sources and the manufacturer has decided to prevent them from becoming effective by the application of the protection described in this document, the equipment manufacturer shall determine, by calculation or type tests, the control parameters associated with those potential ignition sources.
5.2 Each control parameter (e.g temperature, T, speed, S and pressure, P) shall be expressed as a value in normal operation (e.g. Tnorm, Snorm, Pnorm) and a value in mal-operation that does not result in the potential ignition source becoming effective (e.g. Tcrit, Scrit, Pcrit). NOTE Examples of the above control parameters are the determination of the: a) normal operating temperature (Tnorm) and the maximum allowable hot surface temperatures (Tcrit) arising from abnormal frictional heating; b) normal operating speed (Snorm) and the maximum allowable over-speed (Scrit) just before that which produces ignition capable frictional sparking; c) normal operating pressure (Pnorm) and maximum allowable over-pressure (Pcrit) just before that which produces an ignition capable hot surface; d) normal and maximum allowable vibration, before clearances between fixed and moving parts are reduced to ignition capable levels; e) maximum allowable amount of wear on brake linings / clutch linings before slippage or frictional rubbing results in an ignition capable hot surface; f) normal amount of coolant and the minimum flow of coolant needed to keep hot surfaces below the ignition temperature of the atmosphere; g) normal level of lubricant and the minimum level of lubricant needed to prevent ignition capable frictional heating; h) normal alignment and maximum allowable mis-alignment to prevent moving parts making contact with fixed parts. 6 Ignition prevention system design and settings 6.1 The manufacturer shall specify the settings, or operating characteristics (e.g. if the device is a fuseable plug), of the ignition prevention system intended to be used in the equipment, taking into account among others of the:  speed of change of the potential source becoming an effective source;  response time of the sensor / detector;  response time of the ignition prevention system;  difference in level between the potential source and effective source (e.g. Tnorm to Tcrit);  safety factor considered necessary. NOTE Some industries require the ignition prevention detection system to have at least two levels. The first, to provide a warning to the operator and a second, to actuate the system. In some cases the warning can be used to prevent spurious activation. Equipment manufacturers might need to take this into account when designing their control of ignition prevention system.
6.2 The settings of the ignition prevention system specified by the manufacturer shall be included in the instructions given to the user.
6.3 Where the ignition prevention system is a safety related device it shall operate independently of the normal operating controls of the equipment being protected by it.



EN 13463-6:2005 (E) 9 6.4 Where the ignition prevention system (IPS) is constructed to stop the equipment operating and thereby prevent a potential ignition source from becoming an effective ignition source, the IPS shall be arranged so that the stop function locks-out, preventing the equipment from being re-started without re-setting of the IP system lockout, 6.5 Where the ignition prevention system (IPS) is constructed to indicate, provide a warning or display to the operator, thereby calling for an operator response to prevent a potential ignition source from becoming an effective ignition, that indication, warning or display shall be arranged in accordance with ergonomic principles and avoid operator confusion or misunderstanding with regard to the preventative action required. 7 Ignition protection of sensors and actuators Parts of the ignition prevention system that may be located in a potentially explosive atmosphere shall themselves not be an ignition source (see EN 13463-1 and EN 60079-0). 8 Ignition prevention levels (IPL) of the ignition prevention system 8.1 Ignition prevention level 1 An ignition prevention system of level 1 shall comprise well tried components having a proven history of reliability, assembled and installed in accordance with any relevant standards, adopting well tried safety principles, able to withstand expected influences during operation of the system and so arranged that: – if a control parameter critical value (e.g. Pcrit, Tcrit) is exceeded either the ignition source is prevented from becoming effective or a warning is given that an ignition source can develop; – the ignition prevention system is capable of being checked1) at suitable intervals and the loss of safety function shall be detected by the check; – the equipment manufacturer’s instructions required by EN 13463-1 shall specify the interval between the periodic maintenance checks1) and include advice on the methods of detecting faulty sensors / ignition prevention systems (e.g. the tests to be performed). They shall also specify the action to be taken by the user if faults on the sensors or ignition prevention systems are detected during the maintenance checks.
NOTE Normally, the instructions will specify that such faults need to be remedied before the equipment is put back into service. 8.2 Ignition prevention level 2 An ignition prevention system of level 2 shall meet the requirements of 8.1 and in addition shall comprise well tried components having proven history of reliability, assembled and installed in accordance with any relevant standards, adopting well tried safety principles, able to withstand expected influences during operation of the system and so arranged that: – if a control parameter critical value (e.g. Pcrit, Tcrit etc.) is exceeded, the ignition source is prevented from becoming effective; – if a single fault occurs in the ignition prevention system it does not lead to loss of the prevention system safety function.
1) Routine checking systems are usually based on the user simulating operation of the protection system and checking the response. This may be achieved in simple systems, by the user operating the limit switch / limiting device and noting if the ignition prevention system responds accordingly. In more complicated systems, by injecting a signal into the ignition prevention system to simulate an abnormal condition and noting if it produces the desired action/ reaction. Alternatively (but less reliable), by increasing / lowering the sensor setting to produce an action output level under normal healthy conditions and noting the response (then making sure then sensor is reset it back to its original protective setting, as recommended by the manufacturer).



EN 13463-6:2005 (E) 10 – the equipment manufacturer’s instructions required by EN 13463-1 shall specify the interval between checks1) on the sensor and ignition prevention system.
NOTE 1 This interval could be very small if the sensors and ignition prevention systems are arranged to be checked or monitored by the equipment’s control system. Alternatively, the interval could be a few hours if the risk assessment indicates that manual checking is sufficient.
The manufacturer’s instructions shall describe the action to be taken if faults on the ignition prevention systems are detected.
NOTE 2 The latter might, for example, vary in degree, between immediate stopping of the equipment, to the performance of repairs to the faulty sensors / ignition prevention systems without stopping the, otherwise ignition safe, equipment from operating.
8.3 The ignition prevention system is critical to the ignition safety of the equipment and the minimum ignition prevention levels in Table 1 or Table 2 shall be met, as appropriate for the equipment’s group and category.
NOTE As a consequence, a warning only (with consecutive manual action) cannot be used in this case. Table 1 — Minimum IPL requirements for an ignition prevention system used to protect Group II equipment Occurrence of potential ignition source Category 3 Category 2 Category 1 In normal operation IPL 1 IPL 2
During foreseeable malfunction Not relevant for category 3 IPL 1 IPL 2 During rare malfunction Not relevant for category 3 Not relevant for category 2 IPL 1
Where IPL 1 is used for category 1 equipment the ignition source shall be prevented from becoming effective if any control parameter critical value is exceeded. Table 2 — Minimum IPL requirement for an ignition prevention system used to protect Group I (mining) equipment Category M2 IPL 2 NOTE Category M2 mining equipment is intended to be de-energised in the presence of an explosive atmosphere.
8.4 The ignition prevention level shall be achieved either by: a) installing an ignition prevention system that has been shown to comply with the required IPL by previous evaluation and operating experience
NOTE 1
For example, an ignition prevention level or safety integrity level evaluation performed by the ignition prevention system manufacturer or a third party competent body. or by b) installing an ignition prevention system for IPL 1 that complies with category 2 of EN 954-1 and/or an ignition prevention system for IPL 2 that complies with category 3 of EN 954-1 or by c) evaluating the particular requirements necessary for the equipment, taking account of its intended use and category, and construct them to that level. This evaluation shall take account of:



EN 13463-6:2005 (E) 11 c1) the types of ignition prevention system used to protect the equipment, c2) whether or not, they are single line or duplicated (e.g. by other independent devices),
c3) their individual resistance to faults, c4) whether faults are self revealing or not, c5) whether the ignition prevention system is fail safe or not, c6) the probability of failure, resulting in the ignition protection being lost at the same time as a potential source of ignition (being protected by them) converts to an effective ignition source relating to the category of the equipment. NOTE 2 See also Annex B for the thought process used to assign IPLs to the different categories of equipment and Annex C for some background information on EN 954-1 and EN 61508. 8.5 Programmable electronic devices Where programmable electronic devices are used as part of the ignition protection system they shall comply with the requirements for the appropriate ignition protection level. This can be achieved for example by complying with the requirements of EN 61508-3 with an appropriate safety integrity level (see Annex C). 9 Type tests 9.1 Determination of control parameters In accordance with 5.1 of this document, where the manufacturer does not know the control parameters, or is unable to calculate them, or obtain them from recognised reference literature, a type test shall be performed to determine the normal operating level and the maximum allowable level. For example, the normal and maximum level of vibration allowed, the maximum allowable wear allowed from new, the normal and minimum flow of coolant required.
9.2
Function and accuracy check of the ignition prevention system Sensors shall be checked to ensure they produce the correct output signal in response to the characteristic being monitored and their accuracy is within the range described in this document.
The ignition prevention systems shall be checked for correct operation as intended, also to see if they indicate a “fault” condition when defect or if a signal outside of the limits of the pre-determined maximum / minimum range is applied to it. 10
Instructions for use 10.1 Equipment conforming with the requirements of this document shall be accompanied by the user instructions and particulars required by EN 13463-1 and if applicable additionally: a) instructions relating to the action /reaction level settings of ignition prevention systems (see Clauses 5 and 6), b) the method and the frequency of routinely checking that the ignition prevention system is functioning and calibrated correctly. 10.2 Indicator(s), or gauge(s) or other similar types of monitoring device, shall be marked with the correct level, or if more appropriate the correct pressure and flow rate, of any coolant, lubricant or protective liquid necessary to maintain the ignition protection commensurate with the equipment’s category when in service. Where necessary, indi
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Use of plugs of bulk material in screw conveyors and product receivers for explosion isolation
CEN/TR 17838:2022

Screw conveyors are mechanical devices for the continuous move, discharge or variable rate
feeding of bulk materials in form of powder, granules or grain. They are often used
horizontally or at a slight incline to discharge or feed silos, storage bins, cyclones, filter units,
mills or other equipment in many bulk handling industries.
This Technical Report describes requirements on screw conveyors which can in addition be
used as explosion isolation systems to prevent a dust explosion transmission into connected
plant items.
The scope of this technical report is limited to rigid tubular screw conveyors which consist of
a spiral blade coiled around a shaft held in external bearings (the rotating part of the
conveyor is sometimes called “auger”). Additional internal bearings can be necessary if the
tubular screw conveyor exceeds a certain length.

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SIST EN 17624:2022(Main)
Determination of explosion limits of gases and vapours at elevated pressures, elevated temperatures or with oxidizers other than air
EN 17624:2022

This document specifies a test method to determine the explosion limits of gases, vapours and their mixtures, mixed with a gaseous oxidizer or an oxidizer/inert gas mixture at pressures from 1 bar to 100 bar and for temperatures up to 400 °C.

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SIST EN 15967:2022(Main)
Determination of maximum explosion pressure and the maximum rate of pressure rise of gases and vapours
EN 15967:2022

The European Standard test method is designed to produce measurements of explosion pressure and the maximum explosion pressure, the rate of explosion pressure rise and the maximum rate of explosion pressure rise of a quiescent flammable gas/air/inert mixture in closed volume at ambient temperature and pressure. In this European Standard, the term "gas" includes vapours but not mists. Detonation and decomposition phenomena are not considered in this European Standard.
The pressures and rates of pressure rise measured by the procedures specified in this European Standard are not applicable to flameproof enclosures, that is enclosures intended to withstand an internal explosion and not to transmit it to an external explosive atmosphere, or any other closed volume where the internal geometry can result in pressure piling. Even in an enclosure of relatively simple geometry the disposition of the internal components can lead to rates of pressure rise significantly higher than those measured using this European Standard. This European Standard does not apply to the design and testing of flameproof enclosures in conformity with EN 13463-6 (for non-electrical equipment) and EN 60079-1 (for electrical equipment).

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SIST EN 14373:2022(Main)
Explosion suppression systems
EN 14373:2021

This document describes the basic requirements for the design and application of explosion suppression systems. This document also specifies test methods for evaluating the effectiveness and the scale up of explosion suppression systems against defined explosions. This document covers:
— general requirements for explosion suppression system components;
— evaluating the effectiveness of an explosion suppression system;
— evaluating the scale up of an explosion suppression system;
— development and evaluation of design tools for explosion suppression systems;
— installation, operation and maintenance instructions for an explosion suppression system.
This document is applicable only to explosion suppression systems intended for the protection of closed, or essentially closed, enclosures in which an explosion could result as a consequence of ignition of an explosible mixture, e.g. dust-air, gas(vapour)-air, dust-gas(vapour)-air and mist-air.
This document is not applicable for explosions of materials listed below, or for mixtures containing some of those materials:
— unstable materials that are liable to dissociate;
— explosive materials;
— pyrotechnic materials;
— pyrophoric materials.

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SIST EN 15188:2021(Main)
Determination of the spontaneous ignition behaviour of dust accumulations
EN 15188:2020

This European Standard specifies analysis and evaluation procedures for determining self-ignition temperatures (TSI) of combustible dusts or granular materials as a function of volume by hot storage experiments in ovens of constant temperature. The specified test method is applicable to any solid material for which the linear correlation of lg (V/A) versus the reciprocal self-ignition temperature 1/TSI (with TSI in K) holds (i.e. not limited to only oxidatively unstable materials).
This European Standard is not applicable to the ignition of dust layers or bulk solids under aerated conditions (e.g. as in fluid bed dryer).
This European Standard shall not be applied to dusts like recognised explosives that do not require atmospheric oxygen for combustion, nor to pyrophoric materials.
NOTE   Because of regulatory and safety reasons "recognised explosives" are not in the scope of this European Standard. In spite of that, substances which undergo thermal decomposition reactions and which are not "recognised explosives" but behave very similarly to self-ignition processes when they decompose are in the scope. If there are any doubts as to whether the dust is an explosive or not, experts should be consulted.

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SIST EN ISO/IEC 80079-34:2020(Main)
Explosive atmospheres - Part 34: Application of quality systems for equipment manufacture (ISO/IEC 80079-34:2018)
EN ISO/IEC 80079-34:2020

This part of ISO/IEC 80079 specifies particular requirements and information for establishing and maintaining a quality system to manufacture Ex equipment productsincluding protective systems in accordance with the Ex certificate. While it does not preclude the use of other quality systems that are compatible with the objectives of ISO 9001:2008 2015 and which provide equivalent results, the minimum requirements shall be in accordance with this standard.

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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

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SIST EN 1127-1:2019(Main)
Explosive atmospheres - Explosion prevention and protection - Part 1: Basic concepts and methodology
EN 1127-1:2019

This document specifies methods for the identification and assessment of hazardous situations leading to explosion and the design and construction measures appropriate for the required safety. This is achieved by: - risk assessment; - risk reduction. The safety of equipment, protective systems and components can be achieved by eliminating hazards and/or limiting the risk, i.e. by: a) appropriate design (without using safeguarding); b) safeguarding; c) information for use; d) any other preventive measures. Measures in accordance with a) (prevention) and b) (protection) against explosions are dealt with in Clause 6, measures according to c) against explosions are dealt with in Clause 7. Measures in accordance with d) are not specified in this document. They are dealt with in EN ISO 12100:2010, Clause 6. The preventive and protective measures described in this document will not provide the required level of safety unless the equipment, protective systems and components are operated within their intended use and are installed and maintained according to the relevant codes of practice or requirements. This document specifies general design and construction methods to help designers and manufacturers in achieving explosion safety in the design of equipment, protective systems and components. This document is applicable to any equipment, protective systems and components intended to be used in potentially explosive atmospheres, under atmospheric conditions. These atmospheres can arise from flammable/combustible substances processed, used or released by the equipment, protective systems and components or from materials in the vicinity of the equipment, protective systems and components and/or from the materials of construction of the equipment, protective systems and components. This document is applicable to equipment, protective systems and components at all stages of its use. This document is only applicable to equipment group II which is intended for use in other places than underground parts of mines and those parts of surface installations of such mines endangered by firedamp and/or combustible dust. This document is not applicable to: 1) medical devices intended for use in a medical environment; 2) equipment, protective systems and components where the explosion hazard results exclusively from the presence of explosive substances or unstable chemical substances; 3) equipment, protective systems and components where the explosion can occur by reaction of substances with other oxidizers than atmospheric oxygen or by other hazardous reactions or by other than atmospheric conditions; 4) equipment intended for use in domestic and non-commercial environments where potentially explosive atmospheres may only rarely be created, solely as a result of the accidental leakage of fuel gas; 5) personal protective equipment covered by Regulation (EU) 2016/425; 6) seagoing vessels and mobile offshore units together with equipment on board such vessels or units; 7) means of transport, i.e. vehicles and their trailers intended solely for transporting passengers by air or by road, rail or water networks, as well as means of transport insofar as such means are designed for transporting goods by air, by public road or rail networks or by water; vehicles intended for use in a potentially explosive atmosphere shall not be excluded; 8) the design and construction of systems containing desired, controlled combustion processes, unless they can act as ignition sources in potentially explosive atmospheres.

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SIST-TP CEN/TR 16829:2017+AC:2019(Main)
Fire and explosion prevention and protection for bucket elevators
CEN/TR 16829:2016+AC:2019

This European Technical Report applies to bucket elevators that may handle combustible products capable of producing potentially explosive atmospheres of dust or powder inside the bucket elevator during its operation. The precautions to control ignition sources will also be relevant where the product in the bucket elevator creates a fire risk but not an explosion risk.
For the purposes of this report, a bucket elevator is defined as an item of bulk material handling equipment that carries material in powder form or as coarse products such as whole grain, wood chips or flakes, in a vertical direction by means of a continuous movement of open containers.
This Technical Report specifies the principles of and guidance for fire and explosion prevention and explosion protection for bucket elevators.
Prevention is based on the avoidance of effective ignition sources, either by the elimination of ignition sources or the detection of ignition sources.
Explosion protection is based on the application of explosion venting, explosion suppression or explosion containment and explosion isolation rules specifically adapted for bucket elevators. These specific rules may be based on agreed test methods.
This European Technical Report does not apply to products that do not require atmospheric oxygen for combustion.

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