EN ISO 13390-2:2019 is a professional technical standard that provides guidelines and requirements for the determination of air permeability of building components. In this article, we will explore the key aspects of this standard and its significance in the construction industry.
The Scope of EN ISO 13390-2:2019
EN ISO 13390-2:2019 specifically focuses on the measurement of air permeability of building components, including doors, windows, walls, roofs, and floors. This standard aims to provide a consistent and reliable method of determining the air leakage of these components under specified conditions.
The standard defines the test procedures, equipment requirements, and calculations necessary to determine the air permeability of building components. It takes into account factors such as temperature, air pressure, and humidity to ensure accurate measurements across different environmental conditions.
The Importance of EN ISO 13390-2:2019
Air leakage in buildings can result in several issues, including energy wastage, reduced thermal comfort, and increased noise levels. EN ISO 13390-2:2019 plays a crucial role in addressing these problems by providing standardized methods for measuring air permeability.
This standard allows architects, engineers, and builders to assess the performance of building components in terms of air tightness. By complying with EN ISO 13390-2:2019, construction projects can significantly improve energy efficiency, indoor air quality, and overall building durability.
Implementing EN ISO 13390-2:2019
For effective implementation of EN ISO 13390-2:2019, it is important to follow the specific procedures and guidelines outlined in the standard. This may involve using specialized equipment, conducting tests in controlled environments, and ensuring accurate measurements.
Additionally, compliance with this standard requires regular inspection and maintenance of building components to ensure air tightness over time. By adopting EN ISO 13390-2:2019 in construction practices, stakeholders can enhance the overall quality and sustainability of buildings.