BS EN IEC 60193:2019 - Hydraulic Turbines, Storage Pumps and Pump-Turbines Model Acceptance Tests

Discover the comprehensive standard that sets the benchmark for model acceptance tests of hydraulic turbines, storage pumps, and pump-turbines. The BS EN IEC 60193:2019 is an essential document for professionals in the field of hydraulic engineering, providing detailed guidelines and methodologies to ensure the highest quality and performance of hydraulic machinery.

Overview

The BS EN IEC 60193:2019 standard is a crucial resource for engineers, manufacturers, and testing facilities involved in the design, production, and evaluation of hydraulic turbines, storage pumps, and pump-turbines. Released on June 18, 2019, this standard is the latest in a series of updates that reflect the evolving technologies and practices in the industry.

Key Features

• Standard Number: BS EN IEC 60193:2019
• Pages: 318
• Release Date: June 18, 2019
• ISBN: 978 0 580 51008 3
• Status: Standard

Comprehensive Coverage

With a total of 318 pages, this standard provides an exhaustive exploration of model acceptance tests, ensuring that every aspect of hydraulic turbine and pump-turbine performance is thoroughly evaluated. The document covers a wide range of topics, including:

• Test procedures and methodologies
• Performance criteria and benchmarks
• Data analysis and interpretation
• Quality assurance and control measures

Why Choose BS EN IEC 60193:2019?

Adopting the BS EN IEC 60193:2019 standard ensures that your hydraulic machinery meets the highest international standards for performance and reliability. This standard is recognized globally, making it an invaluable asset for companies looking to compete in the international market. By adhering to these guidelines, you can guarantee that your products are not only efficient but also safe and environmentally friendly.

Benefits of Compliance

Compliance with the BS EN IEC 60193:2019 standard offers numerous benefits, including:

• Enhanced product quality and performance
• Increased customer satisfaction and trust
• Reduced risk of operational failures and downtime
• Improved marketability and competitive advantage

Who Should Use This Standard?

This standard is designed for a wide range of professionals in the hydraulic engineering sector, including:

• Design engineers and project managers
• Manufacturers and suppliers of hydraulic machinery
• Testing and certification bodies
• Regulatory authorities and industry associations

Stay Ahead with the Latest Standards

In a rapidly evolving industry, staying up-to-date with the latest standards is crucial for maintaining a competitive edge. The BS EN IEC 60193:2019 standard reflects the latest advancements in hydraulic technology and testing methodologies, ensuring that your products remain at the forefront of innovation and excellence.

Conclusion

Invest in the BS EN IEC 60193:2019 standard to ensure that your hydraulic turbines, storage pumps, and pump-turbines meet the highest standards of quality and performance. With its comprehensive guidelines and international recognition, this standard is an indispensable tool for any organization committed to excellence in hydraulic engineering.

BS EN IEC 60193:2019

This standard BS EN IEC 60193:2019 Hydraulic turbines, storage pumps and pump-turbines. Model acceptance tests is classified in these ICS categories:

• 27.140 Hydraulic energy engineering

IEC 60193:2019 applies to laboratory models of any type of impulse or reaction hydraulic turbine, storage pump or pump-turbine.
This document applies to models of prototype machines either with unit power greater than 5 MW or with reference diameter greater than 3 m. Full application of the procedures herein prescribed is not generally justified for machines with smaller power and size. Nevertheless, this document may be used for such machines by agreement between the purchaser and the supplier.
This document excludes all matters of purely commercial interest, except those inextricably bound up with the conduct of the tests.
This document is concerned with neither the structural details of the machines nor the mechanical properties of their components, so long as these do not affect model performance or the relationship between model and prototype performances.
This document covers the arrangements for model acceptance tests to be performed on hydraulic turbines, storage pumps and pump-turbines to determine if the main hydraulic performance contract guarantees (see 4.2) have been satisfied.
It contains the rules governing test conduct and prescribes measures to be taken if any phase of the tests is disputed.
The main objectives of this document are:
– to define the terms and quantities used;
– to specify methods of testing and of measuring the quantities involved, in order to ascertain the hydraulic performance of the model;
– to specify the methods of computation of results and of comparison with guarantees;
– to determine if the contract guarantees that fall within the scope of this document have been fulfilled;
– to define the extent, content and structure of the final report.
The guarantees can be given in one of the following ways:
– guarantees for prototype hydraulic performance, computed from model test results considering scale effects;
– guarantees for model hydraulic performance.
This third edition cancels and replaces the second edition published in 1999. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) update to methods/measuring tools currently used for checking dimensions on both model and prototype;
b) update to requirements of accuracy in the dimensional check procedure as a result of new technology;
c) merging of tables/sections with redundant information in dimension check in 5.2;
d) update to methods of measuring discharge;
e) update to pressure fluctuation methods and terminology;
f) specification of measuring times for accurate pressure fluctuation analyses in the model;
g) redefine definition for the transposition of pressure fluctuations to prototype;
h) update to surface waviness requirements in prototype;
i) redefining methods/references in clause on cavitation nuclei content (5.7.3.2.2);
j) update to 7.3 and review of methods on radial thrust measurements;
k) update to 7.4 (Hydraulic loads on control components);
l) update and develop methodology in 7.5 for testing in the extended operating range;
m) update to 7.6 concerning index testing;
n) update to methods for measuring roughness;
o) updates to references;
p) updates to figures;
q) revision of sigma definition;
r) reference to new method of transposition in accordance with IEC 62097.
Key Words: Hydraulic Turbines, Storage Pumps, Pump Turbines