Sustainable lifestyle and health from a public health perspective
EFFICIENT - Environmentally Friendly Fire Suppression System for Cargo using Innovative Green Technology
The EFFICIENT project will aim to identify the various halon free agents available and undertake extensive investigation of their fire suppression effectiveness and extinguishing concentration. It will also establish the agent distribution profile over time at standard atmospheric conditions. In addition, the project will also investigate other environmentally friendly methods like water mist spray, inert gas flooding etc.
Project manager at MDH
Fire suppression and explosion protection have used halons in many applications because they are electrically nonconductive, dissipate rapidly without residue, are safe for limited human exposure, and are extremely efficient in extinguishing most types of fires. However they have a very strong Ozone Depletion Potential (ODP). The Montreal Protocol on Substances that Deplete the Ozone Layer was designed to reduce the production and consumption of ozone depleting substances in order to reduce their abundance in the atmosphere, and thereby protect the earth’s fragile ozone Layer.
The Montreal Protocol on Substances that Deplete the Ozone Layer was designed to reduce the production and consumption of ozone depleting substances in order to reduce their abundance in the atmosphere, and thereby protect the earth’s fragile ozone Layer.
Many international organisations like the United Nations Environment Programme (UNEP) have mandated earliest production and import phaseout of halons. Substitutes are reviewed on the basis of ozone depletion potential, global warming potential, toxicity, flammability, and exposure potential.
Based on the inputs from these investigations, the project will design a suitable fire suppression system for cargo holds of aircraft which are reliable, consistent and safe.
A demonstrator will be developed to test the fire suppression system in accordance with the full scale fire tests prescribed by the minimum performance standards promulgated by the Federal Aviation Administration (FAA). The project will deliver technology at a maturity of TRL 6.