300 degrees is no good. What if the fire is very close to the fan or duct inlet - we could be looking at 1000 degrees. Depressurisation can require very specialist, expensive equipment. And one hour would be no good for fire fighting shafts - two hours required.
The requirement for airflow through the open door you talk about, kurnal, would be 2 m/s for a fire fighting shaft. This is what is deemed to be necessary to ensure a safe bridgehead within the stairs.
If it's done right, it's better than a ventilated lobby. It is very probable, though, that the case we are talking about will not be done right.
If they want to do away with the ventilated lobbies, they should pressurise the stairs to BS EN 12101 - 6 really. They shouldn't rely on some ad hoc, probably environmental, extraction system without the backup of quantitative analysis.
Quick calculation -
assume main vehicular entrance of about 20 sq m - add the open fire fighting door - say 1.6 sq m - add a hefty margin for unanticipated inlet routes - lets be very generous and keep it down to only a few sq m - say 30 sq m overall total inlet area
extraction at 30 cu m/s
30 cu m/s divided by 30 sq m = 1 m/s inlet velocity - far short of the required 2 m/s.
But that's all academic because the fans probably aren't correctly rated for depressurisation anyway!
Stu
