BS ISO 23468:2021 - Reactor Technology Standard

Standard Number: BS ISO 23468:2021

Pages: 26

Released: 2021-08-24

ISBN: 978 0 539 01805 9

Name: Reactor technology. Power reactor analyses and measurements. Determination of heavy water isotopic purity by Fourier transform infrared spectroscopy

Status: Standard

Overview

Introducing the BS ISO 23468:2021, a comprehensive standard that sets the benchmark for reactor technology, specifically focusing on power reactor analyses and measurements. This standard is essential for professionals in the nuclear industry, providing a detailed methodology for the determination of heavy water isotopic purity using Fourier transform infrared spectroscopy (FTIR).

Why Choose BS ISO 23468:2021?

The BS ISO 23468:2021 standard is a critical resource for ensuring the accuracy and reliability of heavy water isotopic purity measurements. Heavy water, or deuterium oxide (D₂O), is a key component in certain types of nuclear reactors, and its isotopic purity is crucial for reactor efficiency and safety. This standard provides a robust framework for using FTIR spectroscopy, a powerful analytical technique, to achieve precise and reliable results.

Key Features

• Comprehensive Guidance: The standard offers detailed instructions on the use of FTIR spectroscopy for determining the isotopic purity of heavy water, ensuring that users can achieve consistent and accurate results.
• Industry Relevance: Tailored for professionals in the nuclear industry, this standard addresses the specific needs and challenges associated with power reactor analyses and measurements.
• Up-to-Date Information: Released on August 24, 2021, the BS ISO 23468:2021 standard reflects the latest advancements and best practices in reactor technology and FTIR spectroscopy.
• International Recognition: As an ISO standard, BS ISO 23468:2021 is recognized and respected globally, making it a valuable addition to any nuclear professional's library.

Detailed Content

The BS ISO 23468:2021 standard spans 26 pages, meticulously covering all aspects of heavy water isotopic purity determination. Key sections include:

• Introduction: An overview of the importance of heavy water isotopic purity in nuclear reactors and the role of FTIR spectroscopy in its determination.
• Methodology: Step-by-step instructions on the preparation, calibration, and execution of FTIR spectroscopy for heavy water analysis.
• Data Analysis: Guidelines on interpreting FTIR spectra, calculating isotopic purity, and ensuring data accuracy.
• Quality Control: Best practices for maintaining the integrity of measurements and ensuring consistent results over time.
• Appendices: Additional resources, including reference materials and troubleshooting tips.

Benefits of Using FTIR Spectroscopy

Fourier transform infrared spectroscopy is a highly effective technique for analyzing the isotopic composition of heavy water. Some of the key benefits include:

• High Sensitivity: FTIR spectroscopy can detect even small variations in isotopic composition, ensuring precise measurements.
• Non-Destructive Analysis: The technique does not alter the sample, allowing for repeated measurements and preserving the integrity of the heavy water.
• Rapid Results: FTIR spectroscopy provides quick and reliable results, making it ideal for routine analyses and quality control.
• Versatility: The method can be applied to a wide range of samples and conditions, making it a versatile tool for nuclear professionals.

Who Should Use This Standard?

The BS ISO 23468:2021 standard is designed for a wide range of professionals in the nuclear industry, including:

• Nuclear Engineers: Ensure the efficiency and safety of nuclear reactors by accurately determining the isotopic purity of heavy water.
• Quality Control Specialists: Maintain high standards of measurement accuracy and consistency in heavy water analyses.
• Research Scientists: Utilize the latest methodologies and best practices in FTIR spectroscopy for advanced nuclear research.
• Regulatory Authorities: Ensure compliance with international standards and best practices in nuclear reactor technology.

Conclusion

The BS ISO 23468:2021 standard is an indispensable resource for anyone involved in the analysis and measurement of heavy water isotopic purity in nuclear reactors. By providing comprehensive guidance on the use of FTIR spectroscopy, this standard ensures that professionals can achieve accurate, reliable, and consistent results. Stay at the forefront of reactor technology and enhance the safety and efficiency of your nuclear operations with the BS ISO 23468:2021 standard.

BS ISO 23468:2021

This standard BS ISO 23468:2021 Reactor technology. Power reactor analyses and measurements. Determination of heavy water isotopic purity by Fourier transform infrared spectroscopy is classified in these ICS categories:

• 27.120.10 Reactor engineering

This document specifies an analytical method for determining heavy water isotopic purity by Fourier transform infrared spectroscopy (FTIR). It is applicable to the determination of the whole range of heavy water concentration. The method is devoted to process controls at the different steps of the process systems in heavy water reactor power plant or any other related areas.

The method can be applied for heavy water isotopic purity measurements in a heavy water reactor power plant or research reactor, heavy water production factory and heavy water related areas.