SIST EN 50341-2-9:2016

SLOVENSKI STANDARD
SIST EN 50341-2-9:2016
01-april-2016
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Overhead electrical lines exceeding AC 1 kV - Part 2-9: National Normative Aspects
(NNA) for GREAT BRITAIN AND NORTHERN IRELAND (based on EN 50341-1:2012)
Ta slovenski standard je istoveten z: EN 50341-2-9:2015
ICS:
29.240.20 Daljnovodi Power transmission and
distribution lines
SIST EN 50341-2-9:2016 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 50341-2-9:2016

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SIST EN 50341-2-9:2016


EUROPEAN STANDARD
EN 50341-2-9

NORME EUROPÉENNE

EUROPÄISCHE NORM
June 2015
ICS 29.240.20

English Version
Overhead electrical lines exceeding AC 1 kV - Part 2-9: National
Normative Aspects (NNA) for Great Britain and Northern Ireland
(based on EN 50341-1:2012)

This European Standard was approved by CENELEC on 2015-06-02.
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, 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: Avenue Marnix 17, B-1000 Brussels
© 2015 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
 Ref. No. EN 50341-2-9:2015 E

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CONTENTS
1 Scope . 6
1.1 General . 6
2 Normative References, definitions and symbols . 6
2.1 Normative references . 6
2.3 Symbols . 7
3 Basis of design . 7
3.2 Requirements of overhead lines . 7
3.2.2 Reliability requirements . 7
3.2.5 Strength coordination . 7
3.2.6 Additional considerations . 7
3.3 Limit states . 7
3.3.3 Serviceability limit states . 7
4 Actions on lines . 8
4.1 Introduction . 8
4.3 Wind loads . 8
4.3.1 Field of application and basic wind velocity . 8
4.3.2 Mean wind velocity . 8
4.3.3 Mean wind pressure . 9
4.4 Wind forces on overhead line components . 9
4.4.1 Wind forces on conductors . 10
4.4.3 Wind forces on lattice towers . 10
4.5 Ice loads . 11
4.6 Combined Wind and Ice loads . 12
4.7 Temperature effects . 13
4.8 Security loads . 13
4.9 Safety loads . 14
4.9.1 Construction and maintenance loads . 14
4.9.2 Loads related to the weight of linesmen . 14
4.10 Forces due to short-circuit currents . 14
4.11 Other special forces . 14
4.12 Load cases . 14
4.12.2 Standard load cases . 14
4.13 Partial factors for actions . 15
5 Electrical requirements . 18
5.2 Currents . 18
5.2.1 Normal current . 18
5.2.2 Short circuit current . 18

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5.5 Minimum air clearance distances to avoid flashover . 19
5.5.3 Empirical method based on European experience. 19
5.6 Load cases for calculation of clearances. 19
5.6.1 Load cases for calculation of clearances . 19
5.6.3 Wind load for determination of electric clearances . 19
5.6.4 Ice load for determination of electric clearances . 19
5.6.5 Combined wind and ice loads. 19
5.8 Internal clearances within the span and at the top of support . 19
5.9 External clearances . 20
5.9.1 General . 20
5.9.4 External clearances to crossing traffic routes . 20
5.9.6 External clearances to other power lines or overhead telecommunication lines . 21
5.9.7 External clearances to recreational areas (playgrounds, sports areas, etc.) . 21
5.10 Corona effect . 21
5.10.2 Audible noise . 21
5.10.3 Corona loss . 21
5.11 Electrical and magnetic field . 21
5.11.1 Electrical and magnetic fields under a line . 21
6 Earthing Systems . 21
6.2 Ratings with regard to corrosion and mechanical strength. 21
6.2.1 Earth electrodes . 21
6.4 Dimensioning with regard to human safety . 21
7 Supports . 22
7.3 Lattice steel towers . 22
7.3.6 Ultimate limit states . 22
7.4 Steel poles . 22
7.4.5 Structural analysis . 22
7.4.6 Ultimate limit states . 22
7.5 Wood Poles . 23
7.5.1 General . 23
7.5.5 Ultimate limit states . 23
7.7 Guyed structures . 24
8. Foundations. 24
8.2 Basis of geotechnical design . 24
8.2.2 Geotechnical design . 24
8.2.3 Design by prescriptive measures . 24
8.2.4 Load tests and tests on experimental models . 24
8.4 Supervision of construction, monitoring and maintenance . 24
9. Conductor and earth wires . 24
10. Insulators . 25
10.10 Characteristics and dimensions of insulators . 25

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11 Line equipment – overhead line fittings . 26
11.9 Characteristics and dimensions of insulator fittings . 26
12 Quality assurance, checks and taking-over . 26
Annex J Angles in lattice steel towers . 26
J.4 Buckling resistance of angles in compression (see 7.3.6.4) . 26
J.4.2 Effective non-dimensional slenderness for flexural buckling . 26
J.4.3 Slenderness of members . 26
J.4.3.3 Primary bracing patterns. 26
J.5 Design resistance of bolted connections (see 7.3.8) . 27
J.5.1 General . 27
Figure NA.1 10-Minute mean wind speeds for GB, v in metres per second . 28
b, map
Figure NA.2 Ice thickness for GB, r and (r ) in millimetres . 29
o w
Figure NA.3 Weather Zones for site heights of 0 to 100m . 30
Figure NA.4 Weather Zones for site heights of 100 to 200m . 31
Figure NA.5 Weather Zones for site heights of 200 to 300m . 32
Figure NA.6 Weather Zones for site heights of 300 to 400m . 33
Figure NA.7 Weather Zones for site heights of 400 to 500m . 34

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Foreword

1. The British National Committee is identified by the following address:

British Standards Institution
389 Chiswick High Road
London W4 4AL

Tel:  + 44 20 8996 9000
Fax: + 44 20 8996 7799
email: info@bsi.org.uk

Attention: Secretary of PEL/11 Overhead lines – Standards Development

2. The British National Committee has prepared this NNA (part 2-9 of EN 50341) listing the GB National
Normative Aspects under its sole responsibility and duly passed this document through the CENELEC
and CLC/TC 11 procedures.

NOTE: The British National NC also takes sole responsibility for the technically correct co-ordination of this NNA
with EN 50341-1. It has performed the necessary checks in the frame of quality assurance / control. However, it is
noted that this quality control has been made in the framework of the general responsibility of a standards
committee under the national laws / regulations.

3. This Part 2-9 is normative in GB and informative for other countries.

4. This document shall be read in conjunction with Part 1 (EN 50341-1). All clause numbers used in this
NNA correspond to those in Part 1. Specific sub-clauses that are prefixed “GB” are to be read as
amendments to the relevant text in Part 1. Any necessary clarification regarding the application of this
NNA in conjunction with Part 1 shall be referred to the British NC who will, in co-operation with CLC/TC
11, clarify the requirements.

Where no reference is made in this NNA to a specific sub-clause, then Part 1 shall apply.

5. In the case of “boxed values” defined in Part 1, amended values (if any), which are defined in this NNA,
shall be taken into account in GB and Northern Ireland.

However any boxed value whether in Part 1 or in this NNA, shall not be amended in the direction of
greater risk in a Project Specification.

6. The GB and Northern Ireland standards/ regulations relating to overhead electrical lines exceeding
A.C. 1 kV are listed in subclause 2.1.

7. The British NC declares in accordance with clause 4.1 of Part 1 that this NNA follows both design
“Approach 1” and design “Approach 3”. The specific design Approach to be used shall be specified in the
Project Specification.

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1 SCOPE
1.1 General

(ncpt) GB.1 General

This NNA is only applicable to all new overhead lines above A.C. 1kV.

This Euronorm is only applicable to new overhead lines and shall not be applied to maintenance,
reconductoring, tee-offs, extensions or diversions to existing overhead lines unless specifically
required by the Project Specification.

For details of the application of this standard for overhead lines constructed with covered
conductor refer to the Project Specification.

For details of the application of this standard to telecommunication systems involving optical
fibres either incorporated in or wrapped around earthwires or conductors or suspended from
overhead line supports, reference should be made to the Project Specification.
2 NORMATIVE REFERENCES, DEFINITIONS AND SYMBOLS

2.1 Normative references

(A-dev) GB.1 National statutes

Reference Name and Date of GB and NI Statute

Electricity Act 1989, Chapter 29,
Health and Safety at Work Act 1974 and subsequent amendments
SI 635 The Electricity at Work Regulations 1989 (Northern Ireland) 1991
SI 1355 The Electricity (Overhead Lines) Regulations 1970
SI 2035 The Overhead Lines (Exemption) Regulations 1990
SI 2665 The Electricity Safety, Quality and Continuity Regulations 2002
SI 381 The Electricity Safety, Quality and Continuity Regulations (Northern Ireland) 2012
SI 3074 The Overhead Lines (Exemption) Regulations 1992
SI 320 The Construction (Design & Management) Regulations 2007
SI 231(NI) Electricity (Northern Ireland) Order 1992
SR 142 The Construction (Design & Management) (Amendment) Regulations (Northern Ireland) 2001
SR 209 The Construction (Design & Management) Regulations (Northern Ireland) 1995
SR 536 Electricity Supply Industry Regulations (Northern Ireland) 1991
SR 21 Electricity Supply (Amendment) Regulations (Northern Ireland) 1993
SI 1039 (NI9) Health and Safety at Work (Northern Ireland) Order 1978
SI 2448 (S.165) The Electricity Act 1989 (Scotland)


(ncpt) GB.2 National normative standards

BSEN 1991-1-4:2005 Actions on Structures - Part 1-4: General Actions – Wind actions
BSEN 1995-1-1:2008 Design of Timber Structures – Part 1-1 General – Common rules and rules for buildings
BS 7354:1990 Design of high-voltage open-terminal stations
BSEN 10025  Hot rolled products of structural steels
BSEN 14229:2010 Structural timber – wood poles for overhead lines
BSEN 50182:2001 Conductors for overhead lines – round wire concentric lay stranded conductors

Electricity Association Technical Report (EATR) 111 - High Voltage Single Circuit Overhead Lines on Wood Poles
(1991)

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2.3 Symbols

(ncpt) GB.1 Additional symbols

A altitude of the site above mean sea level
SITE
a altitude in metres above sea level of the conductor
c altitude factor
alt
c wind direction factor
dir
 D diameter of the conductor, mm
c
 f     yield strength for bolt
yb
 K ice thickness coefficient
i
 K shape factor
c
L length of conductor span, m
 N number of phases and earthwires
c
 q wind pressure on conductor, N/m²
x
 q wind pressure on structural element, N/m²
c
 r basic radial thickness of ice, mm
B
 r radial ice thickness in mm in the absence of wind, mm
o
 r reference ice thickness, mm
r
 r radial ice thickness in mm in the presence of wind
w
 v fundamental basic wind velocity, m/sec
b,0
v 10-minute wind velocity at sea level taken from a GB map, m/sec
 b,map
z height above ground, m

γ partial safety factor on wind speed and ice thickness (partial factors on actions)
v
γ partial factor on strength of structural materials
m
γ partial factors on permanent actions
dl

3 BASIS OF DESIGN
3.2 Requirements of overhead lines

3.2.2 Reliability requirements

(ncpt) GB.1 Reliability levels
The partial coefficients to be used for the reliability levels are shown in Table 4.13.1/GB.1.
The required reliability level shall be stated in the Project Specification. For temporary loading
conditions reduced reliability levels may be specified.

3.2.5 Strength coordination

(ncpt) GB.1 Strength coordination
The required degree of strength coordination shall be stated in the Project Specification.

3.2.6 Additional considerations

(ncpt) GB.1 Additional considerations

Higher partial factors than those shown within this NNA may be specified in the Project
Specification. Any additional considerations shall also be stated in the Project Specification.

3.3 Limit states

3.3.3 Serviceability limit states

(ncpt)  GB.1 Specific requirement
These shall be defined in the Project Specification.

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4 ACTIONS ON LINES
4.1 Introduction

(ncpt) GB.1 Peak factor equation
The formulation in the UK National Annex to BS EN 1991-1-4 modifies the parameter to define
peak pressures by adopting a “peak factor” of 3,0 with a quadratic equation, rather than 3,5 with
a linear equation, as used in BS EN 1991-1-4. The decision to change the formulation was due
to the use of the ten minute wind speed in BS EN 1991-1-4 and the greater accuracy in the
quadratic expression. As a consequence of this, equations included in clauses 4.3.4, 4.4.1.2,
4.4.3.2, 4.4.3.3 need to be amended as follows for use in the UK:

Replace the expression:    [1 + 7Iv(z)]
with:   [1 + 3,0Iv(z)]²

(ncpt) GB.2 Design approach definition
Approach 1 (as detailed in BS EN 50341-1:2012 Clause 4.1) shall be adopted for all new
overhead lines supported on steel poles or lattice steel towers.

For overhead lines supported on timber poles, the project specification shall specify either design
Approach 3 or 1.

4.3 Wind loads

4.3.1 Field of application and basic wind velocity

(snc) GB.1 Calculation of basic wind velocity
Partial factor (γ ) taken from Table 4.13.1/GB.1 for the specified Reliability Level shall be applied
v
) instead of applied to wind loading as given in Table 4.7 of
to the basic wind velocity (v
b,0
BSEN 50341-1. The partial factor Ψ shall not be used.
w

The fundamental basic wind velocity, v should be determined by the equation:
b,0

= γ v c
v
b,0 v b,map alt

Where, v is the fundamental velocity indicated in Figure NA.1 and c is the altitude factor
b,map alt
calculated as follows:

= 1 + 0,001 A
c
alt SITE

where: A is the altitude of the site in metres above mean sea level
SITE

The above may be used for all site altitudes, but may be considered over-conservative at high
may be calculated for each element greater than 10m above ground
altitudes, in which case c
alt
using the modified formula:

0.2
c = 1 + 0,001 A (10/h)
alt SITE

Where h is the height above ground level in metres at the point of application of the wind load.
For calculation of wind loading on conductors and insulators, h may be taken as the mean height
of the conductor attachment points. For calculation of wind on towers, structures may be divided
in a number of panels of up to 10m in height, and h taken as the mean height of each panel.

4.3.2 Mean wind velocity

(ncpt) GB.1 Wind Direction
Wind direction factor C may conservatively be taken as 1,0 or from Table 4.3.2/GB.1 below.
dir

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Table 4.3.2/GB.1 Wind direction factors
Direction 0 30° 60° 90° 120° 150° 180° 210° 240° 270° 300° 330°
C 0,78 0,73 0.73 0,74 0,73 0,80 0,85 0,93 1,00 0,99 0,91 0,82
dir
NOTE 1 Interpolation may be used
NOTE 2 The directions are defined by angles from due North in a clockwise direction, for wind from the
specified direction (eg. 0° means wind from due North)

NOTE. Unless stated otherwise in the project specification, wind from every direction from 0 to 345° shall
be considered for the design in 15° increments.

(ncpt) GB.2 Seasonal factor, c
season
Where a temporary loading condition will remain in place for less than 1 year, the appropriate
c factor may be applied in the calculation of mean wind speed as indicated in Table NA.2.7
season
in National Annex to BSEN 1991-1-4:2005. Note that the appropriate factor will not be applied in
conjunction with wind speeds of less return period than 50 years.

(ncpt) GB.3 Orography factor, c
o
The orography factor, c shall be taken as 1,0 where the average ground slope is not greater
o
than 5% (1:20), measured over a distance of 10 times the height of the supports from the line.
For greater slopes, reference shall be made to Figure NA.2 in National Annex to BSEN 1991-1-
4:2005+A1, “Definition of significant orography [definition of symbols given in A.3(3)]”. For sites
lying within the shaded area of that figure, the method given in BSEN 1991-1-4 A.3 for
calculation of c may be used. As an alternative, or if the topography is complex, calculation by
o
wind engineering specialists using digital terrain models may be less labour intensive and give
more accurate results.

(ncpt) GB.4 Loading on conductors
For calculation of the load on supports due to wind loading on conductors (excluding those
indirect effects due to conductor tension) the magnitude of the height above ground (h) adopted
for the calculation of V (h) shall generally be taken as the average height to the attachment of the
h
support considered except in the case of spans crossing deep valleys, river estuaries or hills
where the attachment heights would not be representative of the actual heights to the conductors
away from the supports. In these cases, the value of h adopted shall be adjusted to
approximately represent the mean height from the ground or water level to the attachment points
on the supports. Alternatively, advice from a wind engineering specialist may be sought.

4.3.3 Mean wind pressure

(snc) GB.1 Air density
Air density in Great Britain shall be taken as 1,226 kg/m³. Table 4.2 in BSEN 50341-1:2012 shall
not be used.

4.4 Wind forces on overhead line components

(snc) GB.1 Design Approach 3

Table 4.4.1/GB.1 details the design wind pressures and drag factors to be adopted for design
Approach 3.

The span factor G shall be assumed to be 1,0 for wind span lengths up to 200m and
c
(0,75L + 30)/L metres for wind span lengths greater than 200m. Normal and High altitudes are
defined as follows:

Normal altitude: All of GB and Northern Ireland, except Scotland, site altitudes not exceeding
300m. For Scotland, site altitudes not exceeding 200m. More onerous requirements may be
detailed in the Project Specification.

High altitude: All of GB and Northern Ireland, except Scotland, site altitudes greater than 300m
but not exceeding 500m. For Scotland, site altitudes greater than 200m but not exceeding 500m.
For lines at altitudes greater than 500m, a special consideration should be made as detailed in
the Project Specification.
...