BS EN ISO 21253-2:2019 - Water Quality Standard

Ensure the highest standards of water quality analysis with the BS EN ISO 21253-2:2019 standard. This essential document provides comprehensive guidelines for the quantitative determination of organic substances using a multi-compound class analytical method. Released on October 9, 2019, this standard is a crucial resource for professionals in the field of water quality assessment and environmental science.

Overview

The BS EN ISO 21253-2:2019 standard is a part of a series dedicated to water quality, focusing on multi-compound class methods. It sets forth the criteria necessary for accurately determining organic substances in water, ensuring that analyses are both reliable and reproducible. This standard is indispensable for laboratories and organizations committed to maintaining and improving water quality.

Key Features

• Standard Number: BS EN ISO 21253-2:2019
• Pages: 18
• Release Date: October 9, 2019
• ISBN: 978 0 580 52066 2
• Status: Standard

Why Choose BS EN ISO 21253-2:2019?

This standard is designed to meet the needs of professionals who require precise and accurate methods for the analysis of organic compounds in water. By adhering to the guidelines set out in this document, you can ensure that your water quality assessments are conducted with the highest level of scientific rigor.

Comprehensive Guidelines

The BS EN ISO 21253-2:2019 standard provides detailed instructions on the use of multi-compound class analytical methods. These methods are essential for the accurate quantification of a wide range of organic substances, making this standard a vital tool for any laboratory involved in water quality testing.

Ensuring Accuracy and Reliability

With the increasing complexity of environmental samples, the need for robust and reliable analytical methods has never been greater. This standard ensures that your analyses are not only accurate but also reproducible, providing confidence in your results and supporting your commitment to environmental stewardship.

International Recognition

As part of the ISO series, this standard is recognized internationally, making it an essential resource for organizations operating on a global scale. By implementing the guidelines of BS EN ISO 21253-2:2019, you align your practices with internationally accepted standards, enhancing your credibility and reputation in the field of water quality.

Applications

The BS EN ISO 21253-2:2019 standard is applicable to a wide range of industries and sectors, including:

• Environmental Monitoring
• Water Treatment Facilities
• Research Laboratories
• Regulatory Agencies
• Consulting Firms

Conclusion

In an era where environmental concerns are at the forefront, the importance of accurate water quality analysis cannot be overstated. The BS EN ISO 21253-2:2019 standard provides the necessary framework for the quantitative determination of organic substances, ensuring that your analyses are both precise and reliable. By incorporating this standard into your practices, you demonstrate a commitment to excellence and a dedication to safeguarding our planet's most vital resource.

Invest in the BS EN ISO 21253-2:2019 standard today and take a significant step towards ensuring the highest standards of water quality analysis.

BS EN ISO 21253-2:2019

This standard BS EN ISO 21253-2:2019 Water quality. Multi-compound class methods is classified in these ICS categories:

• 13.060.50 Examination of water for chemical substances

This document specifies the criteria for developing an in-house mass spectrometry-based method for quantitative analysis of multiple subgroups of organic substances in the scope of physical-chemical analysis of water.

This document supplements ISO/TS 13530 which provides guidance on the initial characterization of the measurement performances, by providing details to select the test matrix and internal standards and criteria for analyte and internal standard recoveries.

This document is not intended as a substitute for the currently applicable analytical standards dedicated to organic compounds but as a resource bringing additional characterization elements.