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eLibrary > BS EN 60079-28:2015 - TC Tracked Changes. Explosive atmospheres - Protection of equipment and transmission systems using optical radiation >

BS EN 60079-28:2015 - TC Tracked Changes. Explosive atmospheres - Protection of equipment and transmission systems using optical radiation, 2020

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BS EN 60079-28:2015 - TC Tracked Changes. Explosive atmospheres - Protection of equipment and transmission systems using optical radiation, 2020

30276712_new.pdf [Go to Page]
30325683-VOR.pdf [Go to Page]
English [Go to Page]
CONTENTS
FOREWORD
INTRODUCTION
1 Scope
2 Normative references
3 Terms and definitions
4 General requirements
5 Types of protection [Go to Page]
5.1 General
5.2 Requirements for inherently safe optical radiation “op is” [Go to Page]
5.2.1 General
5.2.2 Continuous wave radiation
5.2.3 Pulsed radiation
5.2.4 Ignition tests
5.2.5 Over-power/energy fault protection
5.3 Requirements for protected optical radiation “op pr” [Go to Page]
5.3.1 General
5.3.2 Radiation inside optical fibre or cable
5.3.3 Radiation inside enclosures
5.4 Optical system with interlock “op sh”
6 Type verifications and tests [Go to Page]
6.1 Test set-up for ignition tests [Go to Page]
6.1.1 General
6.1.2 Test vessel
6.1.3 Criteria to determine ignition
6.2 Verification of suitability of test set-up for type tests [Go to Page]
6.2.1 Reference gas
6.2.2 Reference absorber
6.2.3 Reference test for continuous wave radiation and pulses above 1 s duration
6.2.4 Reference test for pulsed radiation below 1 ms pulse duration
6.3 Type tests [Go to Page]
6.3.1 Ignition tests with continuous wave radiation and pulses above 1 s duration
6.3.2 Ignition tests with single pulses less than 1 ms duration
6.3.3 Tests for pulse trains and pulses from 1 ms to 1 s duration
6.3.4 Absorber targets for type tests
6.3.5 Test acceptance criteria and safety factors
7 Marking
Annex A (informative) Reference test data
Annex B (informative) Ignition mechanisms
Annex C (normative) Ignition hazard assessment
Annex D (informative) Typical optical fibre cable design
Annex E (normative) Flow diagram for the assessment of pulses
Bibliography
Figures [Go to Page]
Figure 1 – Optical ignition delay times and safe boundary curve with safety factor of 2
Figure B.1 – Figure B.1 – Minimum radiant igniting power with inert absorber target (α1064 nm=83 %, α805 nm=93 %) and continuous wave-radiation of 1064 nm
Figure B.2 – Minimum radiant igniting power with inert absorber target (α1 064 nm=83 %, α805 nm=93 %) and continuous wave-radiation (PTB: 1064 nm, HSL: 805 nm, [8]: 803 nm) for some n-alkanes
Figure C.1 – Ignition hazard assessment
Figure D.1 – Example Multi-Fibre Optical Cable Design For Heavy Duty Applications
Figure D.2 – Typical Single Optical Fibre Cable Design
Figure E.1 – Flow diagram for the assessment of pulses according to 5.2.3
Tables [Go to Page]
Table 1 – EPLs achieved by application of types of protection for optical systems
Table 2 – Safe optical power and irradiance for Group I and II equipment, categorized by Equipment Group and temperature class
Table 3 – Safe optical power and irradiance for Group III equipment
Table 4 – Safe limit values for intermediate area, Group I or II, constant power, T1 – T4 atmospheres, equipment Groups IIA, IIB or IIC (Data derived from Figure B.1 including a safety factor)
Table A.1 – Reference values for ignition tests with a mixture of propane in air at 40 °C mixture temperature
Table B.1 – AIT (auto ignition temperature), MESG (maximum experimental safe gap) and measured ignition powers of the chosen combustibles for inert absorbers as the target material (α1 064 nm=83 %, α805 nm=93)3
Table B.2 – Comparison of measured minimum igniting optical pulse energy (Qe,p i,min) at 90 μm beam diameter with auto ignition temperatures (AIT) and minimum ignition energies (MIE) from literature [9] at concentrations in percent by volume (ϕ)
Français [Go to Page]
SOMMAIRE
AVANT-PROPOS
INTRODUCTION
1 Domaine d'application
2 Références normatives
3 Termes et définitions
4 Exigences générales
5 Modes de protection [Go to Page]
5.1 Généralités
5.2 Exigences pour les rayonnements optiques à sécurité intrinsèque "op is" [Go to Page]
5.2.1 Généralités
5.2.2 Rayonnement d’onde entretenue
5.2.3 Rayonnement à impulsions
5.2.4 Essais d’inflammation
5.2.5 Protection contre les défauts de surpuissance et d'énergie
5.3 Exigences pour rayonnement optique protégé "op pr" [Go to Page]
5.3.1 Généralités
5.3.2 Rayonnement à l'intérieur d'une fibre optique ou d'un câble
5.3.3 Rayonnement à l’intérieur des enveloppes
5.4 Système optique avec asservissement "op sh"
6 Vérification et essais de type [Go to Page]
6.1 Montage d’essai pour essais d’inflammation [Go to Page]
6.1.1 Généralités
6.1.2 Récipient d'essai
6.1.3 Critères de détermination de l'inflammation
6.2 Vérification de l'adaptation du montage d'essai aux essais de type [Go to Page]
6.2.1 Gaz de référence
6.2.2 Absorbeur de référence
6.2.3 Essai de référence pour rayonnement d’onde entretenue et à impulsions d’une durée supérieure à 1 s
6.2.4 Essai de référence pour le rayonnement à impulsions d’une durée inférieure à 1 ms
6.3 Essais de type [Go to Page]
6.3.1 Essais d’inflammation avec rayonnement d’onde entretenue et à impulsions d’une durée supérieure à 1 s
6.3.2 Essais d’inflammation avec impulsions uniques d’une durée inférieure à 1 ms
6.3.3 Essais pour trains d’impulsions et impulsions d’une durée comprise entre 1 ms et 1 s
6.3.4 Cibles d'absorbeur pour les essais de type
6.3.5 Critères d'acceptation d'essai et facteurs de sécurité
7 Marquage
Annexe A (informative) Données d’essai de référence
Annexe B (informative) Mécanismes d'inflammation
Annexe C (normative) Évaluation du danger d’inflammation
Annexe D (informative) Conception type de câbles à fibres optiques
Annexe E (normative) Schéma fonctionnel pour l’évaluation des impulsions
Bibliographie
Figures [Go to Page]
Figure 1 – Retards d'inflammation optique et courbe de limite de sécurité avec un facteur de sécurité de 2
Figure B.1 – Puissance d’inflammation rayonnante minimale avec cible d’absorbeur inerte ((1 064 nm= 83 %, (805 nm= 93 %) et rayonnement d’onde entretenue de 1064 nm
Figure B.2 – Puissance d’inflammation rayonnante minimale avec cible d’absorbeur inerte (α1 064 nm= 83 %, α805 nm= 93 %) et rayonnement d’onde entretenue (PTB: 1 064 nm, HSL: 805 nm, [8]: 803 nm) pour certains n-alkylbenzènes
Figure C.1 – Évaluation du danger d’inflammation
Figure D.1 – Exemple de conception de câble optique multifibre pour applications à haut rendement
Figure D.2 – Conception type de câble à fibre optique unique
Figure E.1 – Schéma fonctionnel pour l’évaluation des impulsions selon 5.2.3
Tableaux [Go to Page]
Tableau 1 – EPL atteints par l'application des modes de protection pour les systèmes optiques
Tableau 2 – Puissance optique et éclairement sûrs pour le matériel des Groupes I et II, par catégorie de groupe de matériel et de classe de température
Tableau 3 – Puissance optique et éclairement sûrs pour le matériel du Groupe III
Tableau 4 – Valeurs limites sûres pour surface intermédiaire, Groupe I ou II, puissance constante, atmosphères T1 à T4, Groupes de matériels IIA, IIB ou IIC (données dérivées de la Figure B.1 avec facteur de sécurité)
Tableau A.1 – Valeurs de référence pour essais d’inflammation avec un mélange de propane dans l’air à une température mélange de 40 °C
Tableau B.1 – AIT (température d’auto inflammation), MESG (intervalle de sécurité expérimental maximal) et puissances d’inflammation mesurées des combustibles choisis pour absorbeurs inertes comme matériau cible (α1 064 nm= 83 %, α805 nm= 93)3
Tableau B.2 – Comparaison de l’énergie d’impulsion optique d’inflammation minimale mesurée (Qe,p i,min ) à faisceau de diamètre de 90 μm avec des températures d’auto inflammation (AIT) et des énergies d’inflammation minimales (MIE) de la bibliographie [9] à des concentrations en pourcentage par volume (ϕ) [Go to Page]

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BS EN 60079-28:2015 - TC Tracked Changes. Explosive atmospheres - Protection of equipment and transmission systems using optical radiation, 2020

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