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Homepage>BS Standards>27 ENERGY AND HEAT TRANSFER ENGINEERING>27.180 Wind turbine systems and other alternative sources of energy>BS EN IEC 61400-21-2:2023 Wind energy generation systems Measurement and assessment of electrical characteristics. Wind power plants
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immediate downloadReleased: 2023-05-30
BS EN IEC 61400-21-2:2023 Wind energy generation systems Measurement and assessment of electrical characteristics. Wind power plants

BS EN IEC 61400-21-2:2023

Wind energy generation systems Measurement and assessment of electrical characteristics. Wind power plants

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Standard number:BS EN IEC 61400-21-2:2023
Pages:154
Released:2023-05-30
ISBN:978 0 580 97345 1
Status:Standard

BS EN IEC 61400-21-2:2023 Wind Energy Generation Systems Measurement and Assessment of Electrical Characteristics. Wind Power Plants

Introducing the BS EN IEC 61400-21-2:2023, a comprehensive guide to the measurement and assessment of electrical characteristics in wind power plants. This standard is a must-have for professionals in the wind energy sector, providing a detailed framework for ensuring the efficiency, safety, and reliability of wind power plants.

Released on 30th May 2023, this standard is the latest in the field, incorporating the most recent advancements and research in wind energy generation. With a total of 154 pages, it offers an in-depth exploration of the subject, making it an invaluable resource for anyone involved in the design, operation, or maintenance of wind power plants.

Key Features

The BS EN IEC 61400-21-2:2023 standard provides a comprehensive set of guidelines for the measurement and assessment of electrical characteristics in wind power plants. It covers a wide range of topics, including:

  • Methods for measuring electrical characteristics
  • Procedures for assessing the performance of wind power plants
  • Guidelines for ensuring the safety and reliability of wind power plants
  • Recommendations for improving the efficiency of wind energy generation

By following the guidelines outlined in this standard, professionals in the wind energy sector can ensure that their wind power plants are operating at their full potential, delivering clean, renewable energy in the most efficient and reliable way possible.

Why Choose BS EN IEC 61400-21-2:2023?

The BS EN IEC 61400-21-2:2023 standard is a trusted resource in the wind energy sector, recognized for its thoroughness and accuracy. It is backed by the International Electrotechnical Commission (IEC), a leading global organization for the development and publication of international standards for all electrical, electronic and related technologies.

With its detailed guidelines and practical recommendations, this standard can help professionals in the wind energy sector to improve the performance of their wind power plants, reduce operational costs, and contribute to the global transition towards renewable energy.

Order Your Copy Today

Don't miss out on this essential resource for the wind energy sector. Order your copy of the BS EN IEC 61400-21-2:2023 standard today and take the first step towards optimizing the performance of your wind power plants.

The standard is available in print format and comes with an ISBN number of 978 0 580 97345 1. It is currently in the status of 'Standard', meaning it is up-to-date and relevant for current practices in the field.

Invest in the future of wind energy generation. Order your copy of the BS EN IEC 61400-21-2:2023 standard today!

DESCRIPTION

BS EN IEC 61400-21-2:2023


This standard BS EN IEC 61400-21-2:2023 Wind energy generation systems is classified in these ICS categories:
  • 27.180 Wind turbine energy systems
IEC 61400-21-2 - Wind energy generation systems - Measurement and assessment of electrical characteristics - Wind power plants - has the following scope: IEC 61400-21-2 defines and specifies the quantities that shall be determined to characterize the electrical characteristics of grid-connected power plants (PP). IEC 61400-21-2 defines the measurement and test procedures for quantifying the electrical characteristics as basis for the verification of compliance of PP, including: - Power quality aspects - Steady state operation - Dynamic response (undervoltage and overvoltage fault ride-through) - Disconnection from grid (Grid protection) - Control performance IEC 61400-21-2 defines a uniform functionality test and measurement procedure for the power plant controller (PPC), as a basis for the unit test of the power plant controller. IEC 61400-21-2 defines the procedures for assessing compliance with electrical connection requirements, including the aggregation methods for power quality aspects such as voltage variations, flicker, harmonics and interharmonics. IEC 61400-21-2 defines the procedures for measurement and fault recording for the verification of power plant electrical simulation models in relation to undervoltage and overvoltage ride through events. These measurement procedures are valid for power plants, including the power plant controller and other connected equipment, necessary for the operation of the Power Plant. The measurement procedures are valid for any size of power plant connected to the point of connection (POC) at one connection point. The procedures for assessing and verifying the compliance with grid connection requirements are valid for power plants in power systems with fixed frequency and a sufficient short-circuit power. Out of the scope of this standard are: - Multi park control, i.e. cluster management of several power plants (PP) or several connection points - Compliance test and performance requirements, including pass or fail criteria - Specific component test and validation of the PP equipment (switchgear, cables, transformers, etc.), which are covered by other IEC standards - Wind power plant model validation, as defined in the IEC 61400-27-2 - Load flow calculation methods and load flow study guidelines - Test and measurement of the communication interface and system of the PP as defined in the IEC 61400-25 series NOTE For the purposes of this document, the following terms for system voltage apply, based on IEC 60038 Low voltage (LV) refers to 100 V < Un ≤ 1 kV; Medium voltage (MV) refers 106 to 1 kV < Un ≤ 35 kV; High voltage (HV) refers to 35 kV < Un ≤ 230 kV; Extra high voltage (EHV) refers to Un > 230 kV