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eLibrary > BS EN 60865-1:2012 Short-circuit currents. Calculation of effects - Definitions and calculation methods >

BS EN 60865-1:2012 Short-circuit currents. Calculation of effects - Definitions and calculation methods, 2012

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BS EN 60865-1:2012 Short-circuit currents. Calculation of effects - Definitions and calculation methods, 2012

30254955-VOR.pdf [Go to Page]
English [Go to Page]
CONTENTS
FOREWORD
1 Scope
2 Normative references
3 Terms, definitions, symbols and units [Go to Page]
3.1 Terms and definitions
3.2 Symbols and units
4 General
5 Rigid conductor arrangements [Go to Page]
5.1 General
5.2 Calculation of electromagnetic forces
5.3 Effective distance between main conductors and between sub-conductors
5.4 Calculation of stresses in rigid conductors
5.5 Structure loads due to rigid conductors
5.6 Consideration of automatic reclosing
5.7 Calculation with special regard to conductor oscillation
6 Flexible conductor arrangements [Go to Page]
6.1 General
6.2 Effects on horizontal main conductors
6.3 Effects on vertical main conductors (droppers)
6.4 Effects on bundled conductors
6.5 Structure loads due to flexible conductors
7 The thermal effect on bare conductors [Go to Page]
7.1 General
7.2 Calculation of thermal equivalent short-circuit current
7.3 Calculation of temperature rise and rated short-time withstand current density for conductors
7.4 Calculation of thermal short-time strength for different durations of the short-circuit
Annex A (normative) Equations for calculation of diagrams
Bibliography
Figures [Go to Page]
Figure 1 – Factor k1s for calculating the effective conductor distance
Figure 2 – Loading direction and bending axis for multiple conductor arrangements
Figure 3 – Factor e for the influence of connecting pieces in Equation (17)
Figure 4 – Factors VF, Vσm and Vσs to be used with the three-phase and line-to-line short-circuits
Figure 5 – Factors Vrm and Vrs to be used with three-phase automatic reclosing
Figure 6 – Maximum swing out angle δmax for a given maximumshort-circuit duration Tk1
Figure 7 – Factor ψ for tensile force in flexible conductors
Figure 8 – Geometry of a dropper
Figure 9 – ν2 as a function of ν1
Figure 10 – ν3 × sin 180°/n as a function of as/d
Figure 11 – ξ as a function of j and εst
Figure 12 – η as a function of j and εst
Figure 13 – Relation between rated short-circuit withstand current density (Tkr = 1 s) and conductor temperature
Tables [Go to Page]
Table 1 – Effective distance as between sub-conductorsfor rectangular cross-section dimensions
Table 2 – Maximum possible values of VσmVrm, VσsVrs, VFVrm
Table 3 – Factors α, β, γ for different busbar support arrangements
Table 4 – Factor q
Table 5 – Section moduli Wm of main conductors with two or more stiffening elements between two adjacent supports
Table 6 – Recommended highest temperatures for mechanicallystressed conductors during a short-circuit
Français [Go to Page]
SOMMAIRE
AVANT-PROPOS
1 Domaine d’application
2 Références normatives
3 Termes, définitions, symboles et unités [Go to Page]
3.1 Termes et définitions
3.2 Symboles et unités
4 Généralités
5 Installations comportant des conducteurs rigides [Go to Page]
5.1 Généralités
5.2 Calcul des forces électromagnétiques
5.3 Distance équivalente entre conducteurs principaux et entre sous-conducteurs
5.4 Calcul des contraintes dans les conducteurs rigides
5.5 Charges de structure résultant des conducteurs rigides
5.6 Prise en compte du réenclenchement automatique
5.7 Calcul tenant compte de l’oscillation des conducteurs
6 Installations comportant des conducteurs souples [Go to Page]
6.1 Généralités
6.2 Effets sur les conducteurs principaux horizontaux
6.3 Effets sur les conducteurs principaux verticaux (billettes de support)
6.4 Effets des conducteurs en faisceau
6.5 Charges de structure résultant des conducteurs souples
7 Effet thermique sur les conducteurs nus [Go to Page]
7.1 Généralités
7.2 Calcul du courant de court-circuit équivalent thermique
7.3 Calcul de l’échauffement et de la densité de courant de tenue de courte durée assigné des conducteurs
7.4 Calcul de la résistance thermique de courte durée pour différentes durées de court-circuit
Annexe A (normative) Équations pour la détermination des schémas
Bibliographie
Figures [Go to Page]
Figure 1 – Facteur k1s pour le calcul de la distance équivalente des conducteurs
Figure 2 – Direction de la charge et axe de flexion dans le casde dispositions à conducteurs multiples
Figure 3 – Facteur e pour l’influence des pièces de liaison dans l’Equation (17)
Figure 4 – Facteurs VF, Vσm et Vσs à utiliser dans le cas de courts-circuits triphasés ou biphasés
Figure 5 – Facteurs Vrm et Vrs à utiliser dans le cas de réenclenchement automatique triphasé
Figure 6 – Angle d’oscillation maximal δmax relatif à une durée de court-circuit maximale donnée Tk1
Figure 7 – Facteur ψ pour la force de tension des conducteurs souples
Figure 8 – Géométrie d’une billette de support
Figure 9 – Relation entre ν2 et ν1
Figure 10 – Relation entre ν3 × sin 180°/n et as/d
Figure 11 – Relation entre ξ et j et εst
Figure 12 – Relation entre η et j ainsi que εst
Figure 13 – Relation entre la densité de courant de tenue de court-circuit assigné (Tkr = 1 s) et la température du conducteur
Tableaux [Go to Page]
Tableau 1 – Distance équivalente entre sous-conducteurs,as pour des sections rectangulairesa
Tableau 2 – Valeurs maximales possibles de VσmVrm, VσsVrs, VFVrm
Tableau 3 – Facteurs α, β, γ pour différentes dispositionsde supports de jeux de barres
Tableau 4 – Facteur q
Tableau 5 – Modules de section Wm de conducteurs principauxavec deux raidisseurs ou plus entre deux supports adjacents
Tableau 6 – Températures maximales recommandées pour des conducteurs contraints mécaniquement pendant un court-circuit [Go to Page]

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