Difference between revisions of "Flame Detectors"
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[[File:Flame detectors.jpg|thumb|200px|right|Flame detectors]] | |||
'''Flame detectors''' are optical fire detection devices, which are able to detect infra-red and/or ultra violet radiation given off from a flaming fire. | |||
Flame detectors are ineffective for slow smouldering fires where traditional smoke detectors would be more suitable however flame detectors will generally respond far quicker to rapidly developing fires such as combustible gases and liquids etc. | |||
==Types== | |||
===Infra-red Flame Detectors=== | |||
Infra-Red (I.R.) Flame Detectors respond to flaming fires emitting light in the infrared area of the spectrum (modulating at 5 to 30 cycles per second). I.R. Flame Detectors can respond to a fire condition in typically less than 50 milliseconds and are designed to detect hydrocarbon fires whilst ignoring potential false alarm hazards such as arc welding, nuclear radiation and x-rays. | |||
The sensor usually incorporates a delayed response, selectable in the range 3-30 seconds, to minimise responses to non-fire sources of radiation. In this way alarms are only generated by a sustained, flickering sources of I.R. radiation - e.g. fire. | |||
The sensitivity of Infrared Flame Detectors is affected by the distance of the device from the fire source such that, if a distance is doubled the fire has to be four times as large to be detected. The trigger delay is therefore adjusted to suit the installation conditions shorter delays for lower mounting, longer delays for higher mounting. | |||
===Ultra Violet Flame Detectors=== | |||
U.V. Flame Detectors are extremely fast and capable of detecting flaming fires emitting light in the ultra violet area of the spectrum. Typically, U.V Flame Detectors can respond to a fire in less than 10 milliseconds and are used in high hazard applications such as petrochemical plants, munitions factories and other areas where flammable or explosive liquids or solids are handled or stored. | |||
Ultra Violet Flame Detectors can be used in explosive atmospheres and some are capable of being directed at specific hazards. Models can have angular fields of view ranging from 90 to 180 degrees. Sensitivity is usually factory set for the application. U.V Flame Detectors should not be used around arc welding, as they will respond to the UV light given off by the welding process. | |||
===Ultra Violet - Infra-red Flame Detectors=== | |||
UV-IR Flame Detectors respond to flaming fires emitting light in both the ultra violet and the infrared area of the spectrum. | |||
UV-IR Flame Detectors require both the UV and the IR sensors to alarm simultaneously thereby making them highly resistant to common sources of false alarms such as welding, x-rays, lightning, artificial lighting and interrupted hot body radiation. | |||
==Video== | |||
<youtube>ZFiqiAIPE9o</youtube> |
Latest revision as of 03:00, 19 September 2012
Flame detectors are optical fire detection devices, which are able to detect infra-red and/or ultra violet radiation given off from a flaming fire.
Flame detectors are ineffective for slow smouldering fires where traditional smoke detectors would be more suitable however flame detectors will generally respond far quicker to rapidly developing fires such as combustible gases and liquids etc.
Types
Infra-red Flame Detectors
Infra-Red (I.R.) Flame Detectors respond to flaming fires emitting light in the infrared area of the spectrum (modulating at 5 to 30 cycles per second). I.R. Flame Detectors can respond to a fire condition in typically less than 50 milliseconds and are designed to detect hydrocarbon fires whilst ignoring potential false alarm hazards such as arc welding, nuclear radiation and x-rays.
The sensor usually incorporates a delayed response, selectable in the range 3-30 seconds, to minimise responses to non-fire sources of radiation. In this way alarms are only generated by a sustained, flickering sources of I.R. radiation - e.g. fire.
The sensitivity of Infrared Flame Detectors is affected by the distance of the device from the fire source such that, if a distance is doubled the fire has to be four times as large to be detected. The trigger delay is therefore adjusted to suit the installation conditions shorter delays for lower mounting, longer delays for higher mounting.
Ultra Violet Flame Detectors
U.V. Flame Detectors are extremely fast and capable of detecting flaming fires emitting light in the ultra violet area of the spectrum. Typically, U.V Flame Detectors can respond to a fire in less than 10 milliseconds and are used in high hazard applications such as petrochemical plants, munitions factories and other areas where flammable or explosive liquids or solids are handled or stored.
Ultra Violet Flame Detectors can be used in explosive atmospheres and some are capable of being directed at specific hazards. Models can have angular fields of view ranging from 90 to 180 degrees. Sensitivity is usually factory set for the application. U.V Flame Detectors should not be used around arc welding, as they will respond to the UV light given off by the welding process.
Ultra Violet - Infra-red Flame Detectors
UV-IR Flame Detectors respond to flaming fires emitting light in both the ultra violet and the infrared area of the spectrum.
UV-IR Flame Detectors require both the UV and the IR sensors to alarm simultaneously thereby making them highly resistant to common sources of false alarms such as welding, x-rays, lightning, artificial lighting and interrupted hot body radiation.
Video