BS EN IEC 61400-12:2022

Wind energy generation systems Power performance measurements of electricity producing wind turbines. Overview

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Standard number:	BS EN IEC 61400-12:2022
Pages:	20
Released:	2023-02-15
ISBN:	978 0 539 18333 7
Status:	Standard

BS EN IEC 61400-12:2022 Wind Energy Generation Systems Power Performance Measurements of Electricity Producing Wind Turbines. Overview

Introducing the BS EN IEC 61400-12:2022, the latest standard in wind energy generation systems. This comprehensive guide provides an in-depth overview of power performance measurements for electricity-producing wind turbines. Released on February 15, 2023, this 20-page document is a must-have for anyone involved in the wind energy sector.

Key Features

The BS EN IEC 61400-12:2022 standard is packed with essential information and guidelines that will help you understand and optimize the power performance of wind turbines. It provides a detailed overview of the methods for determining the power performance characteristics of a single wind turbine and applies to the testing of wind turbines of all types and sizes.

Why Choose BS EN IEC 61400-12:2022?

With the increasing global focus on renewable energy sources, understanding and optimizing the performance of wind energy generation systems has never been more critical. The BS EN IEC 61400-12:2022 standard provides a comprehensive guide to the power performance measurements of electricity-producing wind turbines, making it an invaluable resource for professionals in the field.

Whether you're a wind energy engineer, a renewable energy consultant, or a wind farm operator, this standard will provide you with the knowledge and tools you need to maximize the efficiency and output of your wind turbines.

What's Inside?

The BS EN IEC 61400-12:2022 standard covers a wide range of topics, including:

Methods for determining power performance characteristics
Procedures for conducting power performance measurements
Guidelines for data analysis and reporting
Recommendations for site conditions and measurement equipment

Quality and Reliability

The BS EN IEC 61400-12:2022 standard is published by the British Standards Institution (BSI), the national standards body of the UK. BSI is recognized globally for its commitment to producing high-quality, reliable standards that promote best practices and drive innovation.

This standard is no exception. With its clear, concise language and comprehensive coverage of power performance measurements, the BS EN IEC 61400-12:2022 standard is a reliable resource that you can trust to guide you in your work.

Order Your Copy Today

Don't miss out on this essential resource for wind energy professionals. Order your copy of the BS EN IEC 61400-12:2022 standard today and take the first step towards optimizing the power performance of your wind turbines.

Product Details:

Standard number: BS EN IEC 61400-12:2022
Pages: 20
Released: 2023-02-15
ISBN: 978 0 539 18333 7
Name: Wind energy generation systems Power performance measurements of electricity producing wind turbines. Overview
Status: Standard

Invest in your professional development and the future of renewable energy with the BS EN IEC 61400-12:2022 standard. Order your copy today!

DESCRIPTION

BS EN IEC 61400-12:2022

This standard BS EN IEC 61400-12:2022 Wind energy generation systems is classified in these ICS categories:

27.180 Wind turbine energy systems

The IEC 61400 series of standards addresses wind energy generation technical requirements up to the point of interconnection with the utility grid system. Part 12 of the IEC 61400 series of standards comprises a sub-set of standards which are to be used in the evaluation and measurement of the power performance characteristics of wind turbines. The power performance characterisation of wind turbines of all types and sizes is covered. 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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