Overhead electrical lines exceeding AC 1 kV - Part 2-4: National Normative Aspects (NNA) for GERMANY (based on EN 50341-1:2012)

EN 50341-2-4 applies for planning and design of overhead lines with nominal voltages above AC 1 kV. This EN needs not to be adopted for existing installations. Installations in the planning and construction stage may be completed adopting the standard edition valid at the beginning of planning.In Germany this EN is applicable for all types of conductors (according to the information in clause 1.2) which contain components for telecommunication. In Germany this EN is applicable for the installation of telecommunication equipment on supports. Reference is made to 4.11.1/DE.1 “Extension of utilization”.

Freileitungen über AC 1 kV - Teil 2-4: Nationale Normative Festlegungen (NNA) für DEUTSCHLAND basierend auf EN 50341-1:2012

1   Anwendungsbereich
1.1   Allgemeines
1.1   DE.1   Allgemeines
(ncpt)   (Ergänzung zu DIN EN 50341 1 (VDE 0210 1):2013 11, 1.1)
Diese EN gilt für die Planung und Errichtung von Freileitungen über AC 1 kV.
   Auf bestehende Anlagen braucht diese Norm nicht angewendet zu werden. In der Planung oder in Ausführung befindliche Anlagen dürfen nach der bei Beginn der Planung geltenden Norm fertiggestellt werden.
1.2   Anwendungsgebiet
1.2   DE.1   Anwendung für Leiter mit Telekommunikations-Komponenten
(ncpt)   (Ergänzung zu DIN EN 50341 1 (VDE 0210 1):2013 11, 1.2)
Diese Norm gilt in Deutschland für alle Leiter (entsprechend den Angaben in 1.2) mit Telekom-munikations-Komponenten.
1.2   DE.2   Anwendung für das Anbringen von Telekommunikations-Einrichtungen an Stützpunkten
(ncpt)   (Ergänzung zu DIN EN 50341 1 (VDE 0210 1):2013 11, 1.2)
Diese EN ist in Deutschland für das Anbringen von Telekommunikations-Einrichtungen an Stützpunkten anzuwenden. Auf 4.11.1/DE.1 „Nutzungserweiterungen“ wird verwiesen.

Nadzemni električni vodi za izmenične napetosti nad 1 kV - 2-4. del: Nacionalna normativna določila (NNA) za Nemčijo (na podlagi EN 50341-1:2012)

Standard EN 50341-2-4 se uporablja za načrtovanje in projektiranje nadzemnih vodov za nazivne izmenične napetosti nad 1 kV. Tega standarda EN ni treba sprejeti za obstoječe inštalacije. Inštalacije na stopnji načrtovanja in izgradnje se lahko dokončajo s sprejetjem standardne izdaje, veljavne ob začetku načrtovanja. V Nemčiji se ta standard EN uporablja za vse vrste prevodnikov (skladno z informacijami v točki 1.2), ki vključujejo sestavne dele za telekomunikacijo. V Nemčiji se ta standard EN uporablja za montažo telekomunikacijske opreme na nosilce. Pri tem se sklicuje na točko 4.11.1/DE.1 »Razširitev področja uporabe«.

General Information

Status
Published
Publication Date
11-Nov-2019
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
30-May-2019
Due Date
04-Aug-2019
Completion Date
12-Nov-2019

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SLOVENSKI STANDARD
SIST EN 50341-2-4:2019
01-december-2019
Nadomešča:
SIST EN 50341-2-4:2016
Nadzemni električni vodi za izmenične napetosti nad 1 kV - 2-4. del: Nacionalna
normativna določila (NNA) za Nemčijo (na podlagi EN 50341-1:2012)
Overhead electrical lines exceeding AC 1 kV - Part 2-4: National Normative Aspects
(NNA) for GERMANY (based on EN 50341-1:2012)
Freileitungen über AC 1 kV - Teil 2-4: Nationale Normative Festlegungen (NNA) für
DEUTSCHLAND basierend auf EN 50341-1:2012
Ta slovenski standard je istoveten z: EN 50341-2-4:2019
ICS:
29.240.20 Daljnovodi Power transmission and
distribution lines
SIST EN 50341-2-4:2019 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 50341-2-4:2019

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SIST EN 50341-2-4:2019


EUROPEAN STANDARD EN 50341-2-4

NORME EUROPÉENNE

EUROPÄISCHE NORM
May 2019
ICS 29.240.20 Supersedes EN 50341-2-4:2016
English Version
Overhead electrical lines exceeding AC 1 kV - Part 2-4: National
Normative Aspects (NNA) for GERMANY (based on EN 50341-
1:2012)

This European Standard was approved by CENELEC on 2019-04-10.
CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus, the Czech Republic,
Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia,
Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden,
Switzerland, Turkey and the United Kingdom.



European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2019 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
 Ref. No. EN 50341-2-4:2019 E

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SIST EN 50341-2-4:2019
EN 50341-2-4:2019 – 1/90 – Germany
Contents
Page
European foreword . 6
1 Scope . 7
1.1 General . 7
1.2 Field of application . 7
2 Normative references, definitions and symbols . 7
2.1 Normative references . 7
2.2 Definitions . 13
2.3 Symbols . 18
3 Basis of design . 23
3.2 Requirements of overhead lines . 23
3.2.1 Basic requirements . 23
3.2.2 Reliability requirements . 23
3.2.5 Strength coordination . 23
3.2.6 Additional considerations . 23
3.4 Actions . 24
3.4.3 Classification of actions by their nature and/or the structural response . 24
3.6 Design values . 24
3.6.3 Design value of a material property . 24
3.6.4 Combination value of a variable action . 24
4 Actions on lines . 25
4.1 Introduction . 25
4.3 Wind loads . 25
4.4 Wind forces on overhead line components . 27
4.4.1 Wind forces on conductors . 27
4.4.2 Wind forces on insulator sets . 29
4.4.3 Wind forces on lattice towers . 30
4.4.4 Wind forces on poles . 32
4.5 Ice loads . 32
4.5.2 Ice forces on conductors . 32
4.6 Combined wind and ice loads . 34
4.6.4 Equivalent diameter DI of ice-covered conductor . 34
4.6.6 Combination of wind velocities and ice loads . 34
4.8 Security loads . 34
4.8.1 General. 34
4.9 Safety loads . 34
4.9.1 Construction and maintenance loads . 34
4.9.2 Loads related to the weight of lines men . 35
4.10 Forces due to short-circuit currents. 35
4.11 Other special forces . 35
4.12 Load cases . 35
4.12.1 General. 35
4.12.2 Standard load cases . 36
4.13 Partial factors for actions . 39
5 Electrical requirements . 40
5.2 Currents . 40
5.2.1 Normal current . 40
5.4 Classification of voltages and over-voltages . 40

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Page
5.4.2 Representative power frequency voltages . 40
5.4.5 Representative fast-front overvoltage . 40
5.5 Minimum air clearance distances to avoid flashovers . 40
5.5.3 Empirical method based on European experience . 40
5.6 Load cases for calculation of clearances . 41
5.6.3 Wind loads for determination of electric clearances . 41
5.6.4 Ice loads for the determination of electric clearances . 41
5.6.5 Combined wind and ice loads . 42
5.8 Internal clearances within the span and at the top of support . 42
5.9 External clearances . 43
5.9.1 General . 43
5.9.2 External clearances to ground in areas remote from buildings, roads etc. . 45
5.9.3 External clearances to residential and other buildings . 46
5.9.4 External clearances to crossing traffic routes . 47
5.9.5 External clearances to adjacent traffic routes . 48
5.9.6 External clearances to other power lines or overhead telecommunication lines . 48
5.11 Electric and magnetic fields . 49
5.11.1 Electric and magnetic fields under a line. 49
5.11.2 Electric and magnetic field induction . 49
5.11.3 Interference with telecommunication circuits . 49
6 Earthing systems . 49
6.1 Introduction . 49
6.1.2 Requirements for dimensioning of earthing systems . 49
6.1.3 Earthing measures against lightning effects . 51
6.3 Rating with regard to thermal strength . 51
6.3.2 Current rating calculation . 51
6.4 Dimensioning with regard to human safety . 52
6.4.2 Touch voltage limits at different locations . 52
6.4.3 Basic design of earthing systems with regard to permissible touch voltage . 52
6.4.4 Measures in systems with isolated neutral or resonant earthing . 53
6.5 Site inspection and documentation of earthing systems . 53
7 Supports . 54
7.1 Initial design considerations . 54
7.2 Materials . 54
7.2.1 Steel materials, bolts, nuts and washers, welding consumables . 54
7.2.6 Wood . 54
7.2.8 Other materials . 54
7.3 Lattice steel towers . 55
7.3.1 General . 55
7.3.5 Structural analysis . 55
7.3.6 Ultimate limit states . 55
7.3.8 Resistance of connections . 56
7.4 Steel poles . 57
7.4.1 General . 57
7.4.5 Structural analysis . 57
7.4.6 Ultimate limit states (EN 1993-1-1:2005 – Chapter 6) . 57
7.4.7 Serviceability limit states . 58
7.4.8 Resistance of connections . 58

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Page
7.5 Wood poles . 58
7.5.2 Basis of design . 58
7.5.3 Materials . 59
7.5.5 Ultimate limit states . 59
7.5.6 Serviceability limit states . 59
7.5.7 Resistance of connections . 59
7.6 Concrete poles . 59
7.6.2 Basis of Design . 59
7.6.4 Ultimate limit states . 60
7.6.5 Serviceability limit states . 60
7.7 Guyed structures . 60
7.7.1 General. 60
7.7.3 Materials . 60
7.8 Other structures . 61
7.9 Corrosion protections and finishes . 61
7.9.1 General. 61
7.9.2 Galvanising . 61
7.9.4 Paint over galvanising in plant (Duplex system) . 61
7.9.7 Protection of wood poles . 61
7.10 Maintenance facilities . 61
7.10.1 Climbing . 61
7.10.2 Maintainability . 63
7.10.3 Safety requirements . 63
8 Foundations . 63
8.2 Basis of geotechnical design . 63
8.2.2 Geotechnical design by calculation . 63
8.2.3 Design by prescriptive measures . 64
8.2.4 Load tests and tests on experimental models . 64
8.6 Interaction between support foundations and soil . 64
9 Conductors and earth wires . 64
9.2 Aluminium based conductors . 64
9.2.1 Characteristics and dimensions . 64
9.2.3 Conductor service temperatures and grease characteristics . 65
9.3 Steel based conductors . 66
9.3.1 Characteristics and dimensions . 66
9.3.3 Conductor service temperatures and grease characteristics . 66
9.3.4 Mechanical requirements . 67
9.6 General requirements . 67
9.6.2 Partial factors for conductors . 67
9.6.3 Minimum cross sections . 68
9.6.4 Sag-tension calculations . 68
10 Insulators . 69
10.1 Introduction . 69
10.4 Pollution performance requirements . 70
10.7 Mechanical requirements . 70
11 Hardware . 73
11.1 Introduction . 73
11.2 Electrical requirements . 73

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Page
11.2.1 Requirements applicable to all fittings. 73
11.2.2 Requirements applicable to current carrying fittings . 73
11.6 Mechanical requirements . 73
12 Quality assurance, checks and taking-over . 75
Annex G (normative) Calculation methods for earthing systems . 76
G.4 Touch voltage and body current . 76
G.4.1 Equivalence between touch voltage and body current . 76
Annex J (normative) Angles in lattice steel towers . 77
J.2 General . 77
J.3 Tensile resistance of angles connected through one leg . 77
J.4 Buckling resistance of angles in compression . 78
J.4.1 Flexural buckling resistance . 78
J.4.2 Effective non-dimensional slenderness for flexural buckling . 79
J.4.2.4 Effective non-dimensional slenderness λ . 79
eff
J.4.3 Slenderness of members . 79
J.4.3.2 Leg members and chords . 79
J.4.3.3 Primary bracing pattern . 80
J.4.3.4 Compound members . 84
J.4.4 Secondary (or redundant) bracing members . 85
J.5 Design resistance of bolted connections . 85
J.5.1 General . 85
Annex M (informative) Geotechnical and structural design of foundations . 86
M.3 Sample semi-empirical models for resistance estimation . 86
M.3.1 Geotechnical design by calculation . 86
M.3.1.1 General . 86
M.3.1.2 Monoblock foundations . 86
M.3.1.3 Slab foundations . 86
M.3.1.4 Grillage-type slab foundations . 86
M.3.1.5 Single-pile foundations . 87
M.3.1.6 Separate stepped block foundations, pad and chimney foundations . 87
M.3.1.9 Pile foundations . 87
M.3.2 Structural design of concrete foundations . 87
Annex AA (informative) Assumptions for ice loads . 88
Literature . 90
Figures
Figure 4/DE.1 – Map of wind zones for the Federal Republic of Germany according to
DIN EN 1991-1-4/NA:2010-12 . 26
Figure 4/DE.2 – Wind action on conductors and resulting wind force in any wind direction . 28
Figure 4/DE.3 – Wind action on towers . 32
Figure 5/DE.1 – Description of the wake behind a wind energy converter, where tan β = 0,1 shall be
assumed. . 47
Figure 6/DE.1 – Separated earthing systems with connection via an overhead line . 50
Figure 6/DE.2 – Separated earthing systems with connection via cable. .
...

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