BS EN IEC 61400-26-1:2019 - Wind Energy Generation Systems

Discover the essential standard for ensuring the availability and reliability of wind energy generation systems with the BS EN IEC 61400-26-1:2019. This comprehensive document is a must-have for professionals in the wind energy sector, providing detailed guidelines and specifications to optimize the performance and uptime of wind turbines.

Overview

The BS EN IEC 61400-26-1:2019 standard is a pivotal resource for anyone involved in the design, operation, and maintenance of wind energy systems. Released on July 18, 2019, this standard is part of a series that addresses the availability of wind energy generation systems, ensuring that they meet the necessary criteria for efficient and sustainable energy production.

Key Features

• Standard Number: BS EN IEC 61400-26-1:2019
• Pages: 104
• ISBN: 978 0 580 99852 2
• Status: Standard

Why This Standard is Important

As the world shifts towards renewable energy sources, wind energy has emerged as a leading solution for sustainable power generation. The BS EN IEC 61400-26-1:2019 standard plays a crucial role in this transition by providing a framework for assessing and improving the availability of wind energy systems. By adhering to this standard, operators can ensure that their systems are not only efficient but also reliable, minimizing downtime and maximizing energy output.

Comprehensive Coverage

With 104 pages of in-depth information, this standard covers a wide range of topics related to wind energy system availability. It includes guidelines for measuring and reporting availability, as well as strategies for improving system performance. Whether you are an engineer, a project manager, or a maintenance technician, this document provides the insights you need to enhance the reliability of your wind energy systems.

Who Should Use This Standard?

The BS EN IEC 61400-26-1:2019 is designed for a broad audience within the wind energy sector, including:

• Wind farm operators and owners
• Engineers and technical staff involved in the design and maintenance of wind turbines
• Project managers overseeing wind energy projects
• Regulatory bodies and policymakers focused on renewable energy standards

Benefits of Compliance

Compliance with the BS EN IEC 61400-26-1:2019 standard offers numerous benefits, including:

• Increased Reliability: By following the guidelines, operators can significantly reduce the risk of unexpected failures and downtime.
• Optimized Performance: The standard provides strategies for enhancing the efficiency and output of wind energy systems.
• Regulatory Alignment: Adhering to this standard ensures compliance with industry regulations and best practices.
• Cost Savings: Improved system availability leads to reduced maintenance costs and higher energy production, resulting in financial savings.

Conclusion

The BS EN IEC 61400-26-1:2019 is an indispensable resource for anyone involved in the wind energy industry. By providing a comprehensive framework for assessing and improving the availability of wind energy systems, this standard helps ensure that wind power remains a reliable and efficient source of renewable energy. Invest in this standard to enhance the performance and reliability of your wind energy projects, and contribute to a more sustainable future.

BS EN IEC 61400-26-1:2019

This standard BS EN IEC 61400-26-1:2019 Wind energy generation systems is classified in these ICS categories:

• 27.180 Wind turbine energy systems

IEC 61400-26-1:2019 defines an information model from which time-based, and production-based availability indicators for services can be derived and reported.
The purpose is to provide standardised metrics that can be used to create and organise methods for availability calculation and reporting according to the user’s needs.
The document provides information categories, which unambiguously describe how data is used to characterise and categorise the operation. The information model specifies category priority for discrimination between possible concurrent categories. Further, the model defines entry and exit criteria to allocate fractions of time and production values to the proper information category. A full overview of all information categories, exit and entry criteria is given in Annex.
The document can be applied to any number of WTGSs, whether represented by an individual turbine, a fleet of wind turbines, a wind power station or a portfolio of wind power stations. A wind power station is typically made up of all WTGSs, functional services and balance of plant elements as seen from the point of common coupling.
This first edition cancels and replaces IEC TS 61400-26-1:2011, IEC TS 61400-26-2:2014 and IEC TS 61400-26-3:2016.