BS ISO 15202-2:2020: Workplace Air Analysis Standard

Ensure the safety and health of your workplace environment with the comprehensive standard BS ISO 15202-2:2020. This essential document provides detailed guidelines for the determination of metals and metalloids in airborne particulate matter using the advanced technique of inductively coupled plasma atomic emission spectrometry (ICP-AES).

Overview

Released on May 14, 2020, this standard is a crucial tool for professionals involved in occupational health and safety, environmental monitoring, and industrial hygiene. With 58 pages of in-depth information, it offers a thorough approach to sample preparation, ensuring accurate and reliable results in the analysis of workplace air quality.

Key Features

• Standard Number: BS ISO 15202-2:2020
• ISBN: 978 0 539 02293 3
• Status: Standard

Why Choose BS ISO 15202-2:2020?

This standard is indispensable for organizations committed to maintaining a safe working environment. By following the guidelines outlined in BS ISO 15202-2:2020, you can:

• Enhance Workplace Safety: Identify and quantify hazardous metals and metalloids in the air, reducing potential health risks to employees.
• Ensure Compliance: Meet regulatory requirements and industry standards for air quality monitoring and control.
• Improve Accuracy: Utilize the precise method of ICP-AES for reliable and reproducible results.
• Streamline Processes: Follow a standardized approach to sample preparation, minimizing errors and improving efficiency.

Detailed Content

The BS ISO 15202-2:2020 standard covers a wide range of topics essential for effective air quality analysis, including:

• Sample Collection: Guidelines for collecting airborne particulate matter samples in various workplace environments.
• Sample Preparation: Step-by-step instructions for preparing samples for analysis, ensuring consistency and accuracy.
• Analytical Techniques: Detailed explanation of the ICP-AES method, including calibration, interference correction, and data interpretation.
• Quality Control: Procedures for maintaining high standards of quality assurance and control throughout the analytical process.

Who Should Use This Standard?

BS ISO 15202-2:2020 is designed for a wide range of professionals, including:

• Occupational Hygienists: Ensuring the health and safety of workers by monitoring air quality.
• Environmental Scientists: Conducting research and analysis on air pollution and its effects.
• Industrial Safety Officers: Implementing safety protocols and compliance measures in industrial settings.
• Laboratory Technicians: Performing precise and accurate air quality analyses using advanced techniques.

Conclusion

Invest in the health and safety of your workplace with the BS ISO 15202-2:2020 standard. By adhering to its guidelines, you can effectively monitor and control the presence of hazardous metals and metalloids in the air, ensuring a safer environment for all. This standard is an invaluable resource for any organization committed to maintaining high standards of occupational health and safety.

For more information on how this standard can benefit your organization, explore the detailed content and guidelines provided in the BS ISO 15202-2:2020 document.

BS ISO 15202-2:2020

This standard BS ISO 15202-2:2020 Workplace air. Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry is classified in these ICS categories:

• 13.040.30 Workplace atmospheres

This document specifies a number of suitable methods for preparing test solutions from samples of airborne particulate matter collected using the method specified in ISO 15202-1, for subsequent determination of metals and metalloids by ICP?AES using the method specified in ISO 15202-3. It contains information about the applicability of the methods with respect to the measurement of metals and metalloids for which limit values have been set. The methods can also be used in the measurement of some metals and metalloids for which limit values have not been set but no information about its applicability is provided in this case.

The method specified in Annex B is applicable when making measurements for comparison with limit values for soluble metal or metalloid compounds.

One or more of the sample dissolution methods specified in Annexes C through H are applicable when making measurements for comparison with limit values for total metals and metalloids and their compounds. Information on the applicability of individual methods is given in the scope of the annex in which the method is specified.

The following is a non-exclusive list of metals and metalloids for which limit values have been set (see References [14] and [15]) and for which one or more of the sample dissolution methods specified in this document are applicable. However, there is no information available on the effectiveness of any of the specified sample dissolution methods for those elements in italics.

ISO 15202 is not applicable to the determination of elemental mercury or arsenic trioxide, since mercury vapour and arsenic trioxide vapour are not collected using the sampling method specified in ISO 15202-1.