The required system parameters are easy to determine – simply by measuring the width, height, and depth of the enclosed space within the application, and by multiplying the measurements to calculate the volume of the enclosure to be protected.
Note: The protected space should be enclosed with limited or no ventilation. The T Series system is not suitable for open areas. For application in vehicles, please refer to the application guide available on our website.
This calculator is only to be used as a guide and all results are calculated at a 7% minimum design concentration and an ambient temperature of 20°C for the enclosure for Electrical Class Fires according to NFPA 2001, Standard on Clean Agent Fire Extinguishing Systems.
Please note the coverage potential will be reduced in lower temperatures and/or at lower altitudes below sea level.
For application in vehicles, please refer to the vehicle application guide available on our website.
Please contact your local BlazeCut agent for further information.
T Series Online Selection Calculator
BlazeCut Product Selector
Please fill in the dimensions of your application in meters to determine suitable T series size.
This calculator is only to be used as a guide and all results are calculated at a 7% minimum design concentration and an ambient temperature of 20°C for the enclosure for Electrical Class Fires according to NFPA 2001, Standard on Clean Agent Fire Extinguishing Systems.
Applications are assumed to be under 480V. For Lithium Battery related applications, please contact us as a increased gas concentrations are required.
T Series Signal Output
BlazeCut recommend the use of a pressure switch signal output to de-energise the equipment at time of discharge. The signal output can also be used for alarms, audible/visual warning devices or integration into the building fire alarm panel. Pressure switch ordering is with the use of “S" suffix. Eg: T300ES
T Series Specifications
See the detailed specification of the T Series model selected. Never select a T Series system based on what will fit dimensionally. Calculations are based on the amount of fire agent required in a volume/area to reach a minimum design concentration.