BS ISO 19283:2020 - Condition Monitoring and Diagnostics of Machines: Hydroelectric Generating Units

Standard Number: BS ISO 19283:2020

Pages: 72

Released: April 30, 2020

ISBN: 978 0 580 51710 5

Status: Standard

Overview

The BS ISO 19283:2020 standard is an essential document for professionals involved in the operation, maintenance, and management of hydroelectric generating units. This comprehensive standard provides guidelines and best practices for the condition monitoring and diagnostics of machines, specifically tailored to the unique requirements of hydroelectric power generation.

Why Choose BS ISO 19283:2020?

Hydroelectric power is a critical component of the global energy mix, offering a renewable and sustainable source of electricity. Ensuring the reliability and efficiency of hydroelectric generating units is paramount to maintaining a stable power supply. The BS ISO 19283:2020 standard is designed to help operators and engineers achieve this goal by providing a structured approach to monitoring and diagnostics.

Key Benefits:

• Enhanced Reliability: Implementing the guidelines in this standard can significantly improve the reliability of hydroelectric generating units, reducing the risk of unexpected failures and downtime.
• Cost Efficiency: By identifying potential issues early, operators can perform targeted maintenance, minimizing repair costs and extending the lifespan of equipment.
• Environmental Impact: Efficient operation of hydroelectric units contributes to a lower environmental footprint, aligning with global sustainability goals.

Comprehensive Coverage

The BS ISO 19283:2020 standard spans 72 pages, offering in-depth coverage of various aspects of condition monitoring and diagnostics. It includes detailed methodologies for assessing the health of machinery, identifying potential faults, and implementing corrective actions. The standard is structured to provide clear guidance, making it accessible to both seasoned professionals and those new to the field.

Topics Covered:

• Principles of condition monitoring and diagnostics
• Techniques for data collection and analysis
• Fault detection and diagnosis methods
• Maintenance strategies and planning
• Case studies and practical examples

Who Should Use This Standard?

The BS ISO 19283:2020 standard is invaluable for a wide range of stakeholders in the hydroelectric power industry, including:

• Plant Operators: Gain insights into the latest monitoring techniques to ensure optimal performance of generating units.
• Maintenance Engineers: Access proven diagnostic methods to enhance maintenance practices and reduce downtime.
• Design Engineers: Incorporate condition monitoring considerations into the design of new hydroelectric facilities.
• Regulatory Bodies: Ensure compliance with industry standards and promote best practices in power generation.

Stay Ahead with BS ISO 19283:2020

In an ever-evolving energy landscape, staying ahead of technological advancements and industry standards is crucial. The BS ISO 19283:2020 standard equips professionals with the knowledge and tools needed to maintain the highest levels of operational excellence in hydroelectric power generation.

Future-Proof Your Operations:

• Adapt to Technological Changes: Stay informed about the latest developments in condition monitoring and diagnostics technology.
• Meet Regulatory Requirements: Ensure compliance with international standards and regulations, avoiding potential legal and financial penalties.
• Enhance Competitive Advantage: Implementing best practices can lead to improved efficiency and cost savings, giving your organization a competitive edge.

Conclusion

The BS ISO 19283:2020 standard is a vital resource for anyone involved in the operation and maintenance of hydroelectric generating units. By following the guidelines outlined in this standard, organizations can enhance the reliability, efficiency, and sustainability of their power generation operations. Whether you are a plant operator, maintenance engineer, or regulatory body, this standard provides the insights and methodologies needed to excel in the dynamic field of hydroelectric power.

BS ISO 19283:2020

This standard BS ISO 19283:2020 Condition monitoring and diagnostics of machines. Hydroelectric generating units is classified in these ICS categories:

• 17.160 Vibrations, shock and vibration measurements
• 27.140 Hydraulic energy engineering

This document focuses on recommended condition monitoring techniques for detecting and diagnosing developing machine faults associated with the most common potential failure modes for hydro unit components. It is intended to improve the reliability of implementing an effective condition monitoring approach for hydroelectric generating units (hydro units). It is also intended to help create a mutual understanding of the criteria for successful hydro unit condition monitoring and to foster cooperation between the various hydropower stakeholders.

This document is intended for end-users, contractors, consultants, service providers, machine manufacturers and instrument suppliers.

This document is machine-specific and is focused on the generator, shaft/bearing assembly, runner (and impeller for pumped storage applications), penstock (including the main inlet valve), spiral case and the upper draft tube of hydro units. It is primarily intended for medium to large sized hydro units with more than 50 MVA installed capacity, but it is equally valid for smaller units in many cases. It is applicable to various types of turbines such as Francis, Kaplan, Pelton, Bulb and other types. Generic auxiliary systems such as for lubrication and cooling are outside the scope, with the exception of some monitoring techniques that are related to condition monitoring of major systems covered by this document, such as oil analysis. Transmission systems, civil works and the foundation are outside the scope.

This document covers online (permanently installed) and portable instrument condition monitoring and diagnostic techniques for operational hydro units. Offline machine testing, i.e. that which is only done during shutdown, although very important, is not part of the scope of this document. Nor is one-time acceptance and performance testing within the scope. The condition monitoring techniques presented in this document cover a wide range of continuous and interval-based monitoring techniques under generalized conditions for a wide range of applications. Therefore, the actual monitoring approach required for a specific application can be different than that which is recommended in this generalized document.