BS EN ISO 20785-2:2020 - Dosimetry for Exposures to Cosmic Radiation in Civilian Aircraft

Standard Number: BS EN ISO 20785-2:2020

Pages: 46

Released: 2020-08-13

ISBN: 978 0 539 01231 6

Status: Standard

Overview

The BS EN ISO 20785-2:2020 standard is an essential document for professionals involved in the aviation industry, particularly those concerned with the safety and health of crew and passengers. This standard provides comprehensive guidelines for the dosimetry of cosmic radiation exposure in civilian aircraft, focusing on the characterization of instrument response. As air travel continues to be a cornerstone of global connectivity, understanding and managing cosmic radiation exposure is crucial for ensuring the safety of those who spend significant time at high altitudes.

Importance of Cosmic Radiation Dosimetry

Cosmic radiation is a natural form of ionizing radiation that originates from outer space. At high altitudes, such as those experienced during commercial flights, the exposure to cosmic radiation increases significantly. This exposure can have implications for the health of aircrew and frequent flyers, making it imperative to accurately measure and manage these radiation levels. The BS EN ISO 20785-2:2020 standard provides the necessary framework for assessing and mitigating these risks through precise dosimetry.

Key Features of the Standard

• Comprehensive Guidelines: The standard offers detailed instructions on the characterization of instrument response, ensuring that dosimetry equipment is accurately calibrated and reliable.
• Focus on Civilian Aircraft: Tailored specifically for the aviation industry, this standard addresses the unique challenges and requirements of measuring cosmic radiation in civilian aircraft.
• Internationally Recognized: As part of the ISO standards, it is recognized and utilized globally, facilitating international cooperation and consistency in radiation safety practices.

Who Should Use This Standard?

This standard is indispensable for a variety of stakeholders in the aviation sector, including:

• Aviation Safety Officers: Responsible for ensuring the safety and compliance of aircraft operations.
• Health and Safety Professionals: Focused on the well-being of aircrew and passengers.
• Aircraft Manufacturers: Involved in the design and production of aircraft, ensuring they meet safety standards.
• Regulatory Bodies: Overseeing the implementation of safety standards in the aviation industry.

Benefits of Implementing the Standard

Adopting the BS EN ISO 20785-2:2020 standard offers numerous benefits, including:

• Enhanced Safety: By accurately measuring cosmic radiation exposure, the standard helps protect the health of aircrew and passengers.
• Regulatory Compliance: Ensures that aviation operations meet international safety regulations, reducing the risk of non-compliance penalties.
• Improved Equipment Reliability: Provides guidelines for the calibration and maintenance of dosimetry instruments, ensuring consistent and reliable measurements.

Conclusion

The BS EN ISO 20785-2:2020 standard is a critical resource for the aviation industry, providing the necessary tools and guidelines to manage cosmic radiation exposure effectively. By implementing this standard, aviation professionals can enhance safety, ensure regulatory compliance, and maintain the reliability of dosimetry equipment. As air travel continues to evolve, the importance of understanding and mitigating cosmic radiation exposure will only grow, making this standard an invaluable asset for the industry.

BS EN ISO 20785-2:2020

This standard BS EN ISO 20785-2:2020 Dosimetry for exposures to cosmic radiation in civilian aircraft is classified in these ICS categories:

• 49.020 Aircraft and space vehicles in general
• 13.280 Radiation protection

This document specifies methods and procedures for characterizing the responses of devices used for the determination of ambient dose equivalent for the evaluation of exposure to cosmic radiation in civilian aircraft. The methods and procedures are intended to be understood as minimum requirements.