PD IEC TS 61400-25-71:2019: Wind Energy Generation Systems - Communications for Monitoring and Control of Wind Power Plants

In the rapidly evolving world of renewable energy, the PD IEC TS 61400-25-71:2019 standard stands as a pivotal resource for professionals involved in the wind energy sector. This comprehensive document, released on September 19, 2019, provides an in-depth framework for the communication systems used in the monitoring and control of wind power plants. With a total of 90 pages, this standard is an essential tool for ensuring efficient and effective communication within wind energy generation systems.

Key Features and Benefits

The PD IEC TS 61400-25-71:2019 standard is designed to facilitate seamless communication between various components of wind power plants. Here are some of the key features and benefits of this standard:

• Comprehensive Coverage: With 90 pages of detailed information, this standard covers all aspects of communication systems in wind power plants, ensuring that you have access to the most up-to-date and relevant information.
• Configuration Description Language: The standard introduces a configuration description language that simplifies the process of setting up and managing communication systems within wind power plants. This language is designed to be user-friendly and intuitive, making it accessible to professionals at all levels of expertise.
• Enhanced Monitoring and Control: By providing a standardized approach to communication, this document enables more effective monitoring and control of wind power plants. This leads to improved efficiency, reduced downtime, and increased energy output.
• Global Relevance: As a part of the IEC 61400 series, this standard is recognized and utilized worldwide, making it a valuable resource for international projects and collaborations.

Why Choose PD IEC TS 61400-25-71:2019?

Choosing the PD IEC TS 61400-25-71:2019 standard means investing in a resource that is both authoritative and practical. Here are some reasons why this standard is a must-have for professionals in the wind energy sector:

• Expertly Crafted: Developed by leading experts in the field, this standard reflects the latest advancements and best practices in wind energy communication systems.
• Future-Proof: As the wind energy industry continues to grow and evolve, this standard provides a solid foundation for future developments and innovations.
• Cost-Effective: By standardizing communication systems, this document helps reduce costs associated with system integration and maintenance, ultimately leading to more cost-effective wind power generation.
• ISBN Reference: For easy reference and cataloging, the standard is identified by ISBN 978 0 580 99202 5.

Applications and Use Cases

The PD IEC TS 61400-25-71:2019 standard is applicable to a wide range of scenarios within the wind energy sector. Some of the key applications and use cases include:

• Wind Farm Development: During the planning and development stages of wind farms, this standard provides guidance on setting up robust communication systems that ensure optimal performance.
• Operational Management: For existing wind power plants, the standard offers insights into improving communication systems for better operational management and efficiency.
• Research and Innovation: Researchers and innovators in the field of wind energy can use this standard as a reference point for developing new technologies and solutions.
• International Projects: Given its global recognition, this standard is particularly useful for international projects that require a consistent and standardized approach to communication systems.

Conclusion

In conclusion, the PD IEC TS 61400-25-71:2019 standard is an indispensable resource for anyone involved in the wind energy sector. Its comprehensive coverage, user-friendly configuration description language, and global relevance make it a valuable tool for enhancing the efficiency and effectiveness of wind power plants. Whether you are developing a new wind farm, managing an existing one, or conducting research in the field, this standard provides the guidance and insights you need to succeed.

PD IEC TS 61400-25-71:2019

This standard PD IEC TS 61400-25-71:2019 Wind energy generation systems is classified in these ICS categories:

• 27.180 Wind turbine energy systems

The focus of the IEC 61400-25 series is on the communications between wind power plant components such as wind turbines and actors such as SCADA systems. Non-IEC 61850/IEC 61400-25 internal communication within wind power plant components is outside the normative scope of the IEC 61400-25 series.

This document describes how to extend the IEC 61400-25 series with the IEC 61850-6 Substation Configuration description Language (SCL) file format for describing communication-related Intelligent Electronic Device (IED) configurations of a wind turbine, wind power plant controller, meteorological mast, etc. The extension of SCL to the wind domain is intended to simplify integration of wind power plant equipment for clients, as well as their integration to the electrical system. The adoption of SCL allows formalised tool-based exchange of IED parameters, communication system configurations, switch yard (function) structures, as well as description of the relations between them.

The purpose of this format is to formally and efficiently exchange wind turbine and wind power plant IED capability descriptions, and system descriptions between IED engineering tools and the system engineering tool(s) of different manufacturers in a compatible way. The file format is also intended to provide report configuration and alarms as well as HMI interface information from a wind power plant. This information can be used to engineer overlying SCADA systems for the site, for connected DSO, or TSO, or for fleet operators' maintenance and surveillance systems. Finally, the SCL is intended as a documentation of the configuration and topology of the delivered system.

The System Configuration description Language (SCL) is defined in IEC 61850-6, which in turn is based on Extensible Markup Language (XML) version 1.0. Extensions to the IED and communication system model in SCL to cover IEC 61400-25-2 are included in this document. Also Specific Communication Service Mapping (SCSM) extensions or usage rules to cover all mappings defined in IEC 61400-25-4 and IEC 61400-25-411 are included in this document.

This document does not specify individual implementations or products using the SCL language, nor does it constrain the implementation of entities and interfaces within a computer system. Further this document does not intend to specify the download format of configuration data to an IED, although the SCL format could be used as part of the configuration data.