This research will support the development of product standards and codes of practice for smoke and multi-sensor detectors.
The early detection of fire is necessary to give building occupants time to escape and to limit the damage to property. Achieving reliable early detection with minimal false alarms over a broad range of applications is a challenge. The detection of smoke-like phenomena commonly found in the service environment, such as steam, aerosols and dust, contribute to the numbers of unwanted alarms.
Since 2013 BRE has been involved in two studies investigating how false alarms from fire detection systems can be reduced. They showed that the greater use of multi-sensor detectors could help to reduce false alarms from common causes such as cooking, steam, dust and aerosol sprays.
Multi-sensor detectors use a combination of more than one type of sensor – smoke, heat or carbon monoxide – to detect the presence of a fire. A research group comprising the Fire Industry Association, BRE and fire detector manufacturers, has now investigated the immunity of multi-sensor detectors containing smoke and heat sensors to common causes of false alarms, as well as to real fires.
Targeting the more common causes of false alarms five tests were developed and used during this research. These were water mist, dust and aerosol tests performed at the University of Duisburg-Essen, together with toast and cooking tests conducted in the BRE Fire Test room. For all false alarm tests the multi-sensors operated, on average, after the smoke detectors.
In general it was found that the more sophisticated the optical heat multi-sensors were, the less prone they were to common causes of false alarms, whilst their ability to detect real fires was not compromised. This research will support the development of product standards and codes of practice for smoke and multi-sensor detectors.
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