BS ISO 20779:2018+A1:2019 Cigarettes Standard

Discover the comprehensive and authoritative standard for the generation and collection of total particulate matter in cigarettes using a routine analytical smoking machine with an intense smoking regime. The BS ISO 20779:2018+A1:2019 is an essential document for professionals in the tobacco industry, researchers, and regulatory bodies who are focused on understanding and controlling the particulate matter produced by cigarettes.

Overview

This standard provides a detailed methodology for the generation and collection of total particulate matter (TPM) from cigarettes. It is specifically designed to be used with a routine analytical smoking machine operating under an intense smoking regime. This ensures that the data collected is both accurate and relevant to real-world smoking conditions, providing valuable insights into the particulate emissions of cigarettes.

Key Features

• Standard Number: BS ISO 20779:2018+A1:2019
• Pages: 26
• Release Date: August 23, 2019
• ISBN: 978 0 539 02714 3
• Status: Standard

Why This Standard is Important

The BS ISO 20779:2018+A1:2019 standard is crucial for several reasons:

• Consistency and Accuracy: It provides a consistent method for measuring TPM, ensuring that results are reliable and can be compared across different studies and applications.
• Regulatory Compliance: Adhering to this standard helps manufacturers and researchers comply with international regulations and guidelines, which is essential for market access and product development.
• Health and Safety: Understanding the particulate matter emissions from cigarettes is vital for assessing their impact on health and safety, both for smokers and those exposed to secondhand smoke.

Detailed Methodology

The standard outlines a rigorous methodology for the collection of TPM, which includes:

1. Preparation of the smoking machine and cigarettes according to specified conditions.
2. Execution of the smoking process under an intense regime, simulating real-world usage.
3. Collection and analysis of the particulate matter generated during the smoking process.

This detailed approach ensures that the data collected is both comprehensive and applicable to a wide range of research and regulatory needs.

Applications

The BS ISO 20779:2018+A1:2019 standard is applicable in various contexts, including:

• Research and Development: Used by scientists and researchers to study the effects of cigarette smoke and develop new products with reduced emissions.
• Quality Control: Employed by manufacturers to ensure that their products meet the required standards for particulate emissions.
• Regulatory Assessment: Utilized by regulatory bodies to evaluate compliance with health and safety standards.

Conclusion

The BS ISO 20779:2018+A1:2019 standard is an indispensable resource for anyone involved in the study or regulation of cigarette emissions. Its detailed methodology and focus on real-world conditions make it a valuable tool for ensuring the accuracy and relevance of particulate matter data. By adhering to this standard, professionals can contribute to the development of safer, more compliant tobacco products and enhance our understanding of the health impacts of smoking.

For those in the tobacco industry, research, or regulatory sectors, the BS ISO 20779:2018+A1:2019 standard is a must-have document that provides the guidance needed to navigate the complex landscape of cigarette particulate matter analysis.

BS ISO 20779:2018+A1:2019

This standard BS ISO 20779:2018+A1:2019 Cigarettes. Generation and collection of total particulate matter using a routine analytical smoking machine with an intense smoking regime is classified in these ICS categories:

• 65.160 Tobacco, tobacco products and related equipment

This document specifies a method for the generation and collection of total particulate matter (TPM) present in the smoke from cigarettes using a routine analytical smoking machine with an intense smoking regime. It is not applicable to the determination of water or nicotine-free dry particulate matter when using the extraction procedure specified in ISO 4387:2000, 7.9.1 or the subsequent measurement of water specified in ISO 10362‑1 or ISO 10362‑2.

NOTE The type of analytical smoking machine used could impact the mass of TPM collected on the smoke trap. This might be due to either incomplete collection or evaporation of water and other volatile compounds from the smoke trap.