Thanks for that!, is this software or hard calulations?, sorry for sounding thick but I like to understand how these things work, could you give a quick example of how it would be used?
Thanks hugely 
It can be both, and it is also behind the variations that come with BS9999.
Kurnal might be able to explain in plain English from experience and common sense that conditions in the church will easily allow a 4 minute evacuation. Stu, might look at what fire loading is in the church, the speed of fire growth, smoke produced, any ventilation supplied, the volume of the room and the height and give a load of calculations based on these various details.
There is also software that can be used. Some spreadsheets are used that simply do the calcs for you, and then there is CFD. Even when the software is being used you still need a good idea of what is going on and what 'should' happen.
An example of how it could be calculated is as follows: (Keeping as basic as possible)
An uncontrolled fire is particularly hard to deal with so we will try restrict the fire...
Restrict the fire by creating fuel islands with enough space inbetween them to stop any ignition by radiated heat...
So we will have X megawatts (max output, calculated on fuel load/type and area) islands where it can be expected that the fire will not go from island to island...
A X MW fire of a specific perimeter will create a specific amount of smoke depending on the height of rise of the smoke...
This smoke is either going to fill the room eventually, or if there is a suitable amount of ventilation it might reach a height where the smoke produced is equal to the smoke being removed, and reach an equilibrium.
At some point this smoke may be of a temperature and at a height where it will incapacitate persons that are trying to escape.
We want everyone out well before this happens.
Simples.
