No. Sprinklers activate quickly and only where needed, using less water than fire hoses.
Sprinkler heads are temperature-controlled nozzles with heat-sensitive elements that release water at a specific temperature, usually 68°C or 74°C.
No. Each sprinkler head is a self-contained heat detector that only activates when a specific temperature is reached. Only the sprinklers closest to the fire will activate.
The pipework in domestic fire sprinkler systems is typically 28mm or 35mm external diameter. High-Pressure Mist systems have the advantage of requiring smaller holes, usually less than 25mm.
Conventional sprinkler systems use flame-resistant CPVC (chlorinated polyvinyl chloride) pipework, which has limited flexibility. High-Pressure Mist systems, on the other hand, use pre-engineered hoses that are much more flexible, making them ideal for retrofitting.
Installation happens in three stages: first fix, second fix, and commissioning, similar to plumbing or electrical work. The pipework for fire sprinkler systems is often slightly larger than standard plumbing pipes.
It's best to involve a contractor as early as possible in the building process. The sprinkler system design needs approval from the BCO, and early involvement allows for better planning and coordination particularly regarding water supplies.
Fire sprinkler systems need a large volume of water at a specific pressure. Conventual standard household water supplies are designed to restrict large flows of water to prevent damage resulting from a serious blow-out. This renders a standard domestic supply unsuitable for conventional sprinklers. However, in these cases, a High-Pressure Mist system is the best solution.
A mains-fed sprinkler system runs until it’s isolated, but modern systems include control circuits that activate sounders to alert nearby individuals. While some versions of the BS 9251 standard no longer require external alarms, installing a sounder on the exterior of your property is recommended for added security.
That’s correct, but fire sprinklers help here too. By suppressing the fire early, they reduce combustion and the resulting smoke. Additionally, the water droplets from sprinklers limit smoke spread.
No. Fire sprinklers rely on heat sensors, not smoke sensors, for activation. They are designed to account for normal heat fluctuations from cooking or open flames.
Fire sprinklers cause far less water damage compared to uncontrolled fires or even the water used by firefighters. They release water directly over the fire, minimizing the affected area.
Smoke alarms increase your survival chances in a fire by about 60%. However, having a fire sprinkler system boosts this figure to roughly 95%, as it actively suppresses the fire, reducing its spread and impact.
While individual sprinkler heads can’t be tested after installation, each head is rigorously tested during manufacturing. System functionality, including water pressure and flow, is confirmed during installation and through equivalence testing.
Most domestic systems require around 1,000 gallons (1,200 litres) of water, weighing approximately 1.2 tonnes. If installed in the loft, 'coffin' water tanks can distribute the weight across multiple joists.