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SIST EN 61400-13:2016

(Main)

Wind turbines - Part 13: Measurement of mechanical loads (IEC 61400-13:2015)

Wind turbines - Part 13: Measurement of mechanical loads (IEC 61400-13:2015)

This part of the IEC 61400 describes the measurement of fundamental structural loads on
wind turbines for the purpose of the load simulation model validation. The standard prescribes
the requirements and recommendations for site selection, signal selection, data acquisition,
calibration, data verification, measurement load cases, capture matrix, post-processing,
uncertainty determination and reporting. Informative annexes are also provided to improve
understanding of testing methods.
The methods described in this document can also be used for mechanical loads
measurements for other purposes such as obtaining a measured statistical representation of
loads, direct measurements of the design loads, safety and function testing, or measurement
of component loads. If these methods are used for an alternative objective or used for an
unconventional wind turbine design, the required signals, measurement load cases, capture
matrix, and post processing methods should be evaluated and if needed adjusted to fit the
objective.
These methods are intended for onshore electricity-generating, horizontal-axis wind turbines
(HAWTs) with rotor swept areas of larger than 200 m2. However, the methods described may
be applicable to other wind turbines (for example, small wind turbines, ducted wind turbines,
vertical axis wind turbines).

Windenergieanlagen - Teil 13: Messung von mechanischen Lasten

Éoliennes - Partie 13: Mesurage des charges mécaniques

L'IEC 61400-13:2015(B) décrit le mesurage des charges structurelles fondamentales sur les éoliennes à des fins de validation des modèles de simulation de charges. La norme spécifie les exigences et recommandations concernant le choix du site, la sélection des signaux, l'acquisition des données, l'étalonnage, la vérification des données, les cas de charges de mesure, la matrice de capture, le post-traitement, la détermination de l'incertitude et les rapports d'essai. Des annexes informatives sont également fournies pour améliorer la compréhension des méthodes d'essai. Cette norme remplace l'IEC TS 61400-13 parue en 2001; elle constitue une révision technique, ainsi que la transposition d'une spécification technique en Norme internationale.

Vetrne turbine - 13. del: Meritve mehanskih obremenitev (IEC 61400-13:2015)

Ta del standarda IEC 61400 opisuje meritve temeljnih obremenitev konstrukcije pri vetrnih turbinah za namene preverjanja veljavnosti modela za simulacijo obremenitve. Standard predpisuje zahteve in priporočila za izbiro mesta uporabe, izbiro signalizacije, pridobivanje podatkov, umerjanje, preverjanje veljavnosti podatkov, primere meritvene obremenitve, metriko zajemanja, naknadno obdelavo, ugotavljanje negotovosti in poročanje. Vključeni so tudi informativni dodatki za boljše razumevanje preskusnih metod.
V tem dokumentu opisane metode se lahko uporabljajo tudi za meritve mehanskih obremenitev za druge namene, na primer za pridobivanje izmerjenih statističnih prikazov obremenitve, neposredne meritve projektnih obremenitev, preskušanje varnostnih in funkcionalnih lastnosti ali merjenje sestavnih obremenitev. Če se te metode uporabljajo za druge namene ali projektiranje nekonvencionalnih vetrnih turbin, je treba ovrednotiti potrebno signalizacijo, primere meritvene obremenitve, metriko zajemanja in metode naknadne obdelave ter jih po potrebi prilagoditi za te namene.
Te metode so namenjene za vetrne turbine z vodoravno osjo (HAWT) za proizvodnjo električne energije na kopnem z območji delovanja rotorja, katerih površina je večja kot 200 m2. Vendar opisane metode se lahko uporabljajo za druge vetrne turbine (npr. male vetrne turbine, kanalne vetrne turbine ali vetrne turbine z navpično osjo).

General Information

Status
Published
Publication Date
04-May-2016
ICS
27.180 - Wind turbine energy systems
Technical Committee
IEHT - Electrotechnics - Hydraulic turbins
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
14-Apr-2016
Due Date
19-Jun-2016
Completion Date
05-May-2016
Ref Project
EN 61400-13:2016 - Wind turbines - Part 13: Measurement of mechanical loads

Relations

Amended By
SIST EN 61400-13:2016/A1:2022 - Wind turbines - Part 13: Measurement of mechanical loads (IEC 61400-13:2015/AMD1:2021)
Effective Date
29-Dec-2020

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SLOVENSKI STANDARD
SIST EN 61400-13:2016
01-junij-2016
Vetrne turbine - 13. del: Meritve mehanskih obremenitev (IEC 61400-13:2015)
Wind turbines - Part 13: Measurement of mechanical loads (IEC 61400-13:2015)
Ta slovenski standard je istoveten z: EN 61400-13:2016
ICS:
27.180 Vetrne elektrarne Wind turbine energy systems
SIST EN 61400-13:2016 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 61400-13:2016

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SIST EN 61400-13:2016


EUROPEAN STANDARD EN 61400-13

NORME EUROPÉENNE

EUROPÄISCHE NORM
April 2016
ICS 27.180

English Version
Wind turbines - Part 13: Measurement of mechanical loads
(IEC 61400-13:2015)
Éoliennes - Partie 13: Mesurage des charges mécaniques Windenergieanlagen - Teil 13: Messung von mechanischen
(IEC 61400-13:2015) Lasten
(IEC 61400-13:2015)
This European Standard was approved by CENELEC on 2016-01-25. CENELEC members are bound to comply with the CEN/CENELEC
Internal Regulations which stipulate the conditions for giving this European Standard the status of a national standard without any alteration.
Up-to-date lists and bibliographical references concerning such national standards may be obtained on application to the CEN-CENELEC
Management Centre or to any CENELEC member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation
under the responsibility of a CENELEC member into its own language and notified to the CEN-CENELEC Management Centre has the
same status as the official versions.
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
© 2016 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
 Ref. No. EN 61400-13:2016 E

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SIST EN 61400-13:2016
EN 61400-13:2016
European foreword
The text of document 88/511/CDV, future edition 1 of IEC 61400-13, prepared by IEC/TC 88 "Wind
turbines" was submitted to the IEC-CENELEC parallel vote and approved by CENELEC as
EN 61400-13:2016.

The following dates are fixed:
(dop) 2016-10-25
• latest date by which the document has to be
implemented at national level by
publication of an identical national
standard or by endorsement
• latest date by which the national (dow) 2019-01-25
standards conflicting with the
document have to be withdrawn

Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC [and/or CEN] shall not be held responsible for identifying any or all such
patent rights.

Endorsement notice
The text of the International Standard IEC 61400-13:2015 was approved by CENELEC as a European
Standard without any modification.
In the official version, for Bibliography, the following notes have to be added for the standards indicated:

IEC 61400-12-2 NOTE Harmonized as EN 61400-12-2.
IEC 61400-22 NOTE Harmonized as EN 61400-22.
2

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SIST EN 61400-13:2016
EN 61400-13:2016
Annex ZA
(normative)

Normative references to international publications
with their corresponding European publications

The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.

NOTE 1 When an International Publication has been modified by common modifications, indicated by (mod), the relevant
EN/HD applies.

NOTE 2 Up-to-date information on the latest versions of the European Standards listed in this annex is available here:
www.cenelec.eu

Publication Year Title EN/HD Year

IEC 60050 Series International Electrotechnical Vocabulary - -
IEC 61400-1 2005 Wind turbines - EN 61400-1 2005
Part 1: Design requirements
IEC 61400-12-1 -  Wind turbines - EN 61400-12-1 -
Part 12-1: Power performance
measurements of electricity producing
wind turbines
ISO/IEC Guide 98-3 -  Uncertainty of measurement - - -
Part 3: Guide to the expression of
uncertainty in measurement

3

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SIST EN 61400-13:2016

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SIST EN 61400-13:2016




IEC 61400-13

®


Edition 1.0 2015-12




INTERNATIONAL



STANDARD




NORME



INTERNATIONALE
colour

inside










Wind turbines –

Part 13: Measurement of mechanical loads




Éoliennes –

Partie 13: Mesurage des charges mécaniques
















INTERNATIONAL

ELECTROTECHNICAL

COMMISSION


COMMISSION

ELECTROTECHNIQUE


INTERNATIONALE




ICS 27.180 ISBN 978-2-8322-3087-9



Warning! Make sure that you obtained this publication from an authorized distributor.

Attention! Veuillez vous assurer que vous avez obtenu cette publication via un distributeur agréé.

® Registered trademark of the International Electrotechnical Commission
Marque déposée de la Commission Electrotechnique Internationale

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SIST EN 61400-13:2016
– 2 – IEC 61400-13:2015 © IEC 2015
CONTENTS
FOREWORD . 8
INTRODUCTION . 10
1 Scope . 11
2 Normative references . 11
3 Terms and definitions . 11
4 Symbols, units and abbreviations . 14
5 General . 16
5.1 Document structure . 16
5.2 Safety during testing . 17
6 Test requirements . 17
6.1 General . 17
6.2 Test site requirements . 17
6.3 Measurement load cases . 17
6.3.1 General . 17
6.3.2 MLCs during steady-state operation . 18
6.3.3 MLCs during transient events . 18
6.3.4 MLCs for dynamic characterization . 19
6.3.5 Capture matrices . 20
6.4 Quantities to be measured . 23
6.4.1 General . 23
6.4.2 Load quantities . 23
6.4.3 Meteorological quantities . 25
6.4.4 Wind turbine operation quantities . 25
6.5 Turbine configuration changes . 26
7 Instrumentation . 27
7.1 Load quantities . 27
7.1.1 Types of sensors . 27
7.1.2 Choice of sensor location . 27
7.1.3 Measurement of blade root bending moments . 27
7.1.4 Blade bending moment distribution . 28
7.1.5 Blade torsion frequency/damping . 28
7.1.6 Measurement of rotor yaw and tilt moment . 28
7.1.7 Measurement of the rotor torque . 28
7.1.8 Measurement of tower base bending . 28
7.1.9 Tower top bending moments . 28
7.1.10 Tower mid bending moments . 29
7.1.11 Tower torque . 29
7.1.12 Tower top acceleration . 29
7.1.13 Pitch actuation loads (on hub side of pitch bearing) . 29
7.2 Meteorological quantities . 29
7.2.1 Measurement and installation requirements . 29
7.2.2 Icing potential . 29
7.2.3 Atmospheric stability . 29
7.3 Wind turbine operation quantities . 30
7.3.1 Electrical power . 30

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SIST EN 61400-13:2016
IEC 61400-13:2015 © IEC 2015 – 3 –
7.3.2 Rotor speed or generator speed . 30
7.3.3 Yaw misalignment . 30
7.3.4 Rotor azimuth angle. 30
7.3.5 Pitch position . 30
7.3.6 Pitch speed . 30
7.3.7 Brake moment . 30
7.3.8 Wind turbine status . 30
7.3.9 Brake status . 30
7.4 Data acquisition system . 31
7.4.1 General . 31
7.4.2 Resolution . 31
7.4.3 Anti-aliasing. 31
8 Determination of calibration factors . 31
8.1 General . 31
8.2 Calibration of load channels . 32
8.2.1 General . 32
8.2.2 Blade bending moments . 33
8.2.3 Main shaft moments . 33
8.2.4 Tower bending moments . 34
8.2.5 Tower torque . 34
8.3 Calibration of non-load channels . 35
8.3.1 Pitch angle . 35
8.3.2 Rotor azimuth angle. 35
8.3.3 Yaw angle. 35
8.3.4 Wind direction. 35
8.3.5 Pitch actuation loads . 35
8.3.6 Brake moment . 36
9 Data verification . 36
9.1 General . 36
9.2 Verification checks . 36
9.2.1 General . 36
9.2.2 Blade moments . 37
9.2.3 Main shaft . 38
9.2.4 Tower . 38
10 Processing of measured data . 39
10.1 General . 39
10.2 Fundamental load quantities . 39
10.3 Load quantities for larger turbines . 39
10.4 Wind speed trend detection . 39
10.5 Statistics . 40
10.6 Rainflow counting . 40
10.7 Cumulative rainflow spectrum . 40
10.8 Damage equivalent load. 40
10.9 Wind speed binning . 41
10.10 Power spectral density . 42
11 Uncertainty estimation . 42
12 Reporting. 42
Annex A (informative) Example co-ordinate systems . 46

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SIST EN 61400-13:2016
– 4 – IEC 61400-13:2015 © IEC 2015
A.1 General . 46
A.2 Blade co-ordinate system . 46
A.3 Hub co-ordinate system . 46
A.4 Nacelle co-ordinate system . 47
A.5 Tower co-ordinate system . 48
A.6 Yaw misalignment . 49
A.7 Cone angle and tilt angle . 49
A.8 Rotor azimuth angle . 50
A.9 Blade pitch angle . 50
Annex B (informative) Procedure for the evaluation of uncertainties in load
measurements on wind turbines . 51
B.1 List of symbols . 51
B.2 General procedure . 52
B.2.1 Standard uncertainty . 52
B.2.2 Analytical combination of standard uncertainties . 53
B.2.3 Total uncertainty . 54
B.3 Uncertainties of binned averaged values . 55
B.3.1 General . 55
B.3.2 Uncertainty of calibration and signal . 55
B.3.3 Uncertainty of the bin scatter . 55
B.3.4 Uncertainty of the x-axis quantity . 55
B.3.5 Uncertainty of bin averaged mean values . 55
B.4 Standard uncertainty of DEL and load spectra . 56
B.5 Examples of an uncertainty evaluation . 56
B.5.1 Example for analytical shunt calibration of tower torque . 56
B.6 Determination and use of calibration matrix . 63
B.6.1 Determination of the calibration matrix . 63
B.6.2 Use of the calibration matrix . 64
B.6.3 Time series . 65
Annex C (informative) Sample presentation of mechanical load measurements and
analysis . 67
C.1 General . 67
Annex D (informative)  Recommendations for offshore measurements . 79
Annex E (informative) Load model validation . 81
E.1 General . 81
E.2 Methods for loads comparison . 82
E.2.1 Statistical binning . 82
E.2.2 Spectral functions . 83
E.2.3 Fatigue spectra . 84
E.2.4 Point by point . 84
Annex F (informative) Methods for identification of wind speed trends . 86
F.1 List of symbols . 86
F.2 General . 86
F.3 Trend identification methods . 87
F.4 Ongoing procedure . 91
Annex G (informative) Data acquisition considerations . 92
G.1 Data acquisition system . 92
G.1.1 General . 92

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SIST EN 61400-13:2016
IEC 61400-13:2015 © IEC 2015 – 5 –
G.1.2 Resolution . 92
G.1.3 Sampling model and filtering . 93
G.1.4 Other considerations . 95
Annex H (informative) Load calibration . 96
H.1 General . 96
H.2 Gravity load calibration of the blade bending . 96
H.3 Analytical calibration of the tower bending moments . 97
H.4 External load calibration of the rotor torque . 98
Annex I (informative) Temperature drift . 99
I.1 General . 99
I.2 Known issues . 99
I.3 Recommendations . 100
Annex J (informative) Mechanical load measurements on vertical axis wind turbines . 101
J.1 General . 101
J.2 Terms and definitions . 101
J.3 Coordinate systems . 101
J.4 Quantities to be measured . 102
J.4.1 Fundamental loads . 102
J.5 Measurements . 103
J.5.1 Measurement of blade attachment bending moments . 103
J.5.2 Blade mid-span bending moment . 103
J.5.3 Blade modal frequency/damping . 103
J.5.4 Connecting strut bending moment. 103
J.5.5 Connecting strut axial force . 104
J.5.6 Connecting strut modal frequency/damping . 104
J.5.7 Rotor shaft torque . 104
J.5.8 Tower normal bending . 104
Bibliography . 105

Figure 1 – Fundamental wind turbine loads: tower base, rotor and blade loads . 24
Figure A.1 – Blade co-ordinate system . 46
Figure A.2 – Hub co-ordinate system . 47
Figure A.3 – Nacelle co-ordinate system . 48
Figure A.4 – Tower co-ordinate system . 48
Figure A.5 – Yaw misalignment . 49
Figure A.6 – Cone angle and tilt angle . 49
Figure B.1 – Explanation of used symbols . 61
Figure C.1 – Hub-height wind speed as a function of time . 67
Figure C.2 – Hub-height turbulence intensity as a function of hub-height wind speed . 68
Figure C.3 – Turbulence intensity trending as a function of hub-height wind speed . 68
Figure C.4 – Global capture matrix with all loads channels operating . 69
Figure C.5 – IEC example turbine at 9,1 m/s – Wind turbine operational and
meteorological quantities . 70
Figure C.6 – IEC example turbine at 9,1 m/s – Major load components . 71
Figure C.7 – 10-minute statistics for blade 1 root edge bending . 72
Figure C.8 – Power spectral density of blade 1 root edge bending . 73

---------------------- Page: 11 ----------------------

SIST EN 61400-13:2016
– 6 – IEC 61400-13:2015 © IEC 2015
Figure C.9 – Cumulative rainflow spectrum for blade 1 root edge bending during test
period . 75
Figure C.10 – IEC example turbine normal shutdown at 9,5 m/s – Wind turbine
operational and meteorological quantities . 77
Figure C.11 – IEC example turbine normal shutdown at 9,5 m/s – Major load
components . 78
Figure D.1 – Example of wave spectrum and monopile response . 79
Figure D.2 – Example of wave spectrum . 80
Figure E.1 – Measured data . 82
Figure E.2 – Simulated data . 82
Figure E.3 – Comparison of wind speed binned averaged 10 min. statistics . 82
Figure E.4 – Comparison of 1 Hz equivalent loads .
...

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Wind turbine power performance characteristics are determined from a measured power curve and an associated estimated annual energy production (AEP) and its uncertainty. The measured power curve, defined as the relationship between the wind speed and the wind turbine power output, is determined by collecting simultaneous measurements of meteorological variables (including wind speed), as well as wind turbine signals (including power output) at the test site for a period that is long enough to establish a statistically significant database over a range of wind speeds and under varying wind and atmospheric conditions. The AEP is calculated by applying the measured power curve to reference wind speed frequency distributions, assuming 100 % availability.
Part 12-0 provides a general introduction to the available options for power performance measurement and the contributing evaluations which are further detailed in the other parts of the IEC 61400-12 series. Although the -12 series also defines the specifications of the meteorological variables (and in particular wind speed) required for the power performance evaluation, the methods and procedures for measuring or otherwise acquiring the wind speed data are defined in the IEC 61400-50 wind measurement series of standards.
The evaluation of the wind turbine power performance characteristic according to this series of standards requires the measured power curve and derived energy production figures to be supplemented by an assessment of uncertainty sources and their combined effects. The basis of the uncertainty assessment is ISO/IEC Guide 98-3. The wind measurement uncertainty sources shall be identified and quantified from procedures described in the relevant wind measurement standards contained in the IEC 61400-50 series. The wind measurement uncertainties shall be propagated through to and combined with the other sources of uncertainty in the power curve and annual energy production using methods and assumptions described in the IEC 61400-12 series of standards.

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SIST EN IEC 61400-50:2022(Main)
Wind energy generation systems - Part 50: Wind measurement - Overview (IEC 61400-50:2022)
EN IEC 61400-50:2022

The IEC 61400 series of standards addresses wind energy generation technical requirements
up to the point of interconnection with the utility grid system. The IEC 61400-50 series of
standards comprises a sub-set of standards which specify the requirements for equipment and
methods to be used in the measurement of the wind.
Wind measurements are required as inputs to various tests and analyses specified in other usecase standards in the IEC 61400 series (e.g. power performance, resource assessment, noise
measurement). Whereas those other standards define use-cases for wind measurements, the
IEC 61400-50 series sets those wind measurement requirements which are independent of the
use-case. Its purpose is to ensure that wind measurements and the evaluation of uncertainties
in those measurements are carried out consistently across the wind industry and that wind
measurements are carried out such that the uncertainties can be quantified and that those
uncertainties are within an acceptable range.
This document provides a general introduction to the options that are available for wind
measurement, which are further detailed in the other parts of the IEC 61400-50 series.

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SIST EN IEC 61400-12-3:2022(Main)
Wind energy generation systems - Part 12-3: Power performance - Measurement based site calibration (IEC 61400-12-3:2022)
EN IEC 61400-12-3:2022

This part of IEC 61400 specifies a measurement and analysis procedure for deriving the wind
speed correction due to terrain effects and applies to the performance testing of wind turbines
of all types and sizes connected to the electrical power network as described in IEC 61400-12-1.
The procedure applies to the performance evaluation of specific wind turbines at specific
locations.

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SIST EN IEC 61400-12-5:2022(Main)
Wind energy generation systems - Part 12-5: Power performance - Assessment of obstacles and terrain (IEC 61400-12-5:2022)
EN IEC 61400-12-5:2022

This part of IEC 61400 specifies the procedures for assessing the significance of obstacles and
terrain variations on a proposed power performance measurement site and applies to the
performance testing of wind turbines of all types and sizes connected to the electrical power
network as described in other parts of the IEC 61400 series. The procedure applies to the
performance evaluation of specific wind turbines at specific locations.

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SIST EN IEC 61400-12-6:2022(Main)
Wind energy generation systems - Part 12-6: Measurement based nacelle transfer function of electricity producing wind turbines (IEC 61400-12-6:2022)
EN IEC 61400-12-6:2022

This part of IEC 61400-12 specifies a procedure for measuring the nacelle transfer function of
a single electricity-producing, horizontal axis wind turbine, which is not considered to be a small
wind turbine in accordance with IEC 61400-2. It is expected that this document be used when
a valid nacelle transfer function is needed to execute a power performance measurement
according to IEC 61400-12-2.
A wind speed measured on the nacelle or hub of a wind turbine is affected by the turbine rotor
(i.e. speeded up or slowed down wind speed). In IEC 61400-12-1, an anemometer is located on
a meteorological tower that is located between two and four rotor diameters upwind of the test
turbine. This location allows direct measurement of the "free" wind with minimum interference
from the test turbine's rotor. In the procedure of this document, the anemometer is located on
or near the test turbine's nacelle. In this location, the anemometer is measuring a wind speed
that is strongly affected by the test turbine's rotor and the nacelle. The procedure in this
document includes methods for determining and applying appropriate corrections for this
interference. However, note that these corrections inherently increase the measurement
uncertainty compared to a properly configured test conducted in accordance with
IEC 61400-12-1.
This document specifies how to characterise a wind turbine's nacelle transfer function. The
nacelle transfer function is determined by collecting simultaneous measurements of
nacelle-measured wind speed and free stream wind speed (as measured on a meteorological
mast) for a period that is long enough to establish a statistically significant database over a
range of wind speeds and under varying wind and atmospheric conditions. The procedure also
provides guidance on determination of measurement uncertainty including assessment of
uncertainty sources and recommendations for combining them.

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SIST EN IEC 61400-50-2:2022(Main)
Wind energy generation systems - Part 50-2: Wind measurement - Application of ground-mounted remote sensing technology (IEC 61400-50-2:2022)
EN IEC 61400-50-2:2022

Part 50 of IEC 61400 specifies methods and requirements for the application of instruments to measure wind speed (and related parameters, e.g. wind direction and turbulence intensity). Such measurements are required as an input to some of the evaluation and testing procedures for wind energy and wind turbine technology (e.g. resource evaluation and turbine testing) described by other standards in the IEC 61400 series. Part 50-2 is applicable specifically to the use of ground mounted remote sensing wind measurement instruments, i.e devices which measure the wind at some location generally above and distant from the location at which the instrument is mounted (e.g. sodars, vertical profiling lidars). This document specifically excludes other types of RSD such as forward facing or scanning lidars.

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