Published August 25, 2020 | Version v1

Development of a fire detection and suppression system for a smart air cargo container

  • 1. Department of Materials The University of Manchester Manchester UK
  • 2. Department of Mechanical Aerospace and Civil engineering The University of Manchester Manchester UK
  • 3. Aerospace Research Institute The University of Manchester Manchester UK

Description

This study investigates and proposes a fire detection and suppression system for a smart air cargo container. A series of smoke spread and fire evolution numerical models are executed to assess the performance of container-based fire detection in various fire scenarios. This is to identify the worst case and optimise the location and threshold setting of fire detection sensors, achieving the shortest detection time. It is found that the fire detection threshold (reduction in light transmission=12%/ft) for a container-based system can be set at three times the standard activation threshold for a cargo-based fire detection system, which can reduce the number of false alarms by three orders of magnitude. Moreover, effectiveness analysis of passive fire protection for the glass fibre-reinforced polymer-made smart container indicates an allowable leakage size of 0.01m2. The risk of internal overpressure has been found to be negligible for the leakage size required by aircraft pressure equalisation.

Files

development_of_a_fire_detection_and_suppression_system_for_a_smart_air_cargo_container.pdf

Additional details

Funding

European Commission
INTELLICONT - Development and Manufacturing of Intelligent Lightweight Composite Aircraft Container 785472