BS ISO 15900:2020 - Determination of Particle Size Distribution

Standard Number: BS ISO 15900:2020

Pages: 100

Released: 2020-10-22

ISBN: 978 0 580 52258 1

Status: Standard

Overview

The BS ISO 15900:2020 standard is a comprehensive guide dedicated to the determination of particle size distribution through differential electrical mobility analysis for aerosol particles. This standard is an essential resource for professionals and researchers working in fields where understanding the size distribution of aerosol particles is crucial. Released on October 22, 2020, this document spans 100 pages of detailed methodologies and guidelines, ensuring precise and reliable results in particle size analysis.

Key Features

• Comprehensive Coverage: With 100 pages of in-depth content, this standard provides a thorough exploration of differential electrical mobility analysis, offering detailed procedures and considerations for accurate particle size distribution determination.
• Up-to-Date Information: As a standard released in 2020, it incorporates the latest advancements and methodologies in the field, ensuring that users have access to the most current and effective practices.
• Global Relevance: As an ISO standard, it is recognized and utilized worldwide, making it a valuable resource for international projects and collaborations.
• Precision and Accuracy: The standard emphasizes precision and accuracy in measurements, providing guidelines that help minimize errors and enhance the reliability of results.

Applications

The BS ISO 15900:2020 standard is applicable in a variety of industries and research areas, including:

• Environmental Monitoring: Understanding the size distribution of aerosol particles is crucial for assessing air quality and environmental health.
• Pharmaceuticals: In the development and manufacturing of inhalable drugs, precise particle size distribution is essential for efficacy and safety.
• Nanotechnology: As the field of nanotechnology grows, accurate particle size analysis becomes increasingly important for the development of new materials and applications.
• Industrial Processes: Many industrial processes rely on the control and measurement of particle sizes to ensure product quality and process efficiency.

Why Choose BS ISO 15900:2020?

Choosing the BS ISO 15900:2020 standard means opting for a document that is not only authoritative but also practical and user-friendly. Its structured approach to differential electrical mobility analysis makes it accessible to both seasoned professionals and newcomers to the field. The standard's emphasis on precision and accuracy ensures that users can achieve reliable and reproducible results, which are critical in both research and industrial applications.

Conclusion

In conclusion, the BS ISO 15900:2020 standard is an indispensable tool for anyone involved in the analysis of aerosol particles. Its comprehensive guidelines and up-to-date methodologies make it a cornerstone document for achieving accurate particle size distribution measurements. Whether you are working in environmental science, pharmaceuticals, nanotechnology, or industrial processes, this standard provides the knowledge and framework necessary to excel in your field.

Invest in the BS ISO 15900:2020 standard today and ensure that your particle size distribution analyses are conducted with the highest level of precision and reliability.

BS ISO 15900:2020

This standard BS ISO 15900:2020 Determination of particle size distribution. Differential electrical mobility analysis for aerosol particles is classified in these ICS categories:

• 19.120 Particle size analysis. Sieving

This document provides guidelines and requirements for the determination of aerosol particle number size distribution by means of the analysis of electrical mobility of aerosol particles. This measurement is usually called “differential electrical mobility analysis for aerosol particles”. This analytical method is applicable to particle size measurements ranging from approximately 1 nm to 1 µm. This document does not address the specific instrument design or the specific requirements of particle size distribution measurements for different applications but includes the calculation method of uncertainty. In this document, the complete system for carrying out differential electrical mobility analysis is referred to as DMAS (differential mobility analysing system), while the element within this system that classifies the particles according to their electrical mobility is referred to as DEMC (differential electrical mobility classifier).