BS EN ISO 12799:2019 - Nuclear Energy Standard

Unlock the potential of nuclear energy with the comprehensive standard BS EN ISO 12799:2019. This essential document provides a detailed methodology for the determination of nitrogen content in sintered pellets of uranium dioxide (UO₂), uranium gadolinium dioxide ((U,Gd)O₂), and uranium plutonium dioxide ((U,Pu)O₂). Utilizing the inert gas extraction and conductivity detection method, this standard is a critical resource for professionals in the nuclear energy sector.

Key Features

• Standard Number: BS EN ISO 12799:2019
• Pages: 12
• Release Date: June 20, 2019
• ISBN: 978 0 539 01910 0
• Status: Standard

Comprehensive Methodology

This standard outlines a precise and reliable method for determining the nitrogen content in various sintered pellets used in nuclear reactors. The inert gas extraction and conductivity detection method described in this document ensures accurate results, which are crucial for maintaining the integrity and performance of nuclear fuel.

Applications in Nuclear Energy

The determination of nitrogen content is vital for the quality control and performance assessment of nuclear fuel pellets. Nitrogen impurities can affect the thermal conductivity and mechanical properties of the fuel, potentially impacting the efficiency and safety of nuclear reactors. By adhering to the guidelines set forth in BS EN ISO 12799:2019, professionals can ensure that their materials meet the stringent requirements necessary for safe and efficient nuclear energy production.

Why Choose BS EN ISO 12799:2019?

As a recognized standard, BS EN ISO 12799:2019 provides a trusted framework for laboratories and facilities involved in the production and testing of nuclear fuel. Its adoption can lead to improved consistency and reliability in test results, fostering greater confidence in the quality of nuclear materials.

Expertly Crafted for Industry Professionals

Developed by leading experts in the field, this standard reflects the latest advancements and best practices in nuclear material testing. It is an indispensable tool for engineers, scientists, and quality assurance professionals dedicated to advancing nuclear technology.

Stay Ahead with the Latest Standards

In the rapidly evolving field of nuclear energy, staying updated with the latest standards is crucial. BS EN ISO 12799:2019 represents the cutting-edge of nuclear material testing, ensuring that your processes align with current industry expectations and regulatory requirements.

Conclusion

BS EN ISO 12799:2019 is more than just a standard; it is a gateway to excellence in nuclear energy production. By implementing the methodologies outlined in this document, you can enhance the quality and safety of your nuclear materials, contributing to a more sustainable and secure energy future.

Embrace the power of precision and reliability with BS EN ISO 12799:2019, and take your nuclear energy projects to new heights.

BS EN ISO 12799:2019

This standard BS EN ISO 12799:2019 Nuclear energy. Determination of nitrogen content in UO₂, (U,Gd)O₂ and (U,Pu)O₂ sintered pellets. Inert gas extraction and conductivity detection method is classified in these ICS categories:

• 27.120.30 Fissile materials and nuclear fuel technology

This International Standard describes a procedure for measuring the nitrogen content of UO₂, (U,Gd)O₂, and (U,Pu)O₂ pellets. Nitrogen in nuclear fuel may be present either as elemental nitrogen or chemically combined in the form of nitrogenous compounds. The technique described herein serves to determine the total content of nitrogen excluding those compounds whose decomposition temperature is above 2 200 °C (most notably Pu and U nitrides).