In comparison to some other businesses, innovation in the fire protection sector can advance slowly. Legislation, regulations, and enforcement can hamper innovation development in the market. However, the work is crucial since innovation in this field saves lives.
The need for innovation is fueled by the expanding complexity of today’s infrastructure and the demand for more environmentally friendly solutions. Thankfully, many businesses are leading the charge in creating solutions for better, safer, and more effective ways to put out fires.
Some fire protection services in Brisbane use cutting-edge fire protection technology to create bespoke, innovative solutions that are more efficient, dependable, and sustainable. Here are some examples of how new fire protection technologies are changing the future of the industry for good.
- Smoke detectors with air sampling
Air Sampling systems actively draw air to the detector through apertures such as piping or tubing in order to sample air from throughout the building. The detector then continually scans the atmosphere for smoke, meaning it can automatically initiate as soon as smoke is detected anywhere in the building.
These systems are continuously at work to deliver the earliest fire threat warning. They can still put out fires at an early stage since they can spot them before they spread.
- Detection of smoke and flames via video
Smoke detectors that sense the smoke molecules are frequently used in homes because they are simple to use, easy to maintain and generally work well, albeit not always—we’ll get to that later. Video smoke/flame detection technology can use thermographic imaging to sense heat, making an effective fire prevention measure.
Due to their ability to provide an early warning that can activate fire protection systems and provide people enough time to evacuate safely, smoke and flame detectors are essential in times of emergency.
- Smoke detectors
A functional, correctly mounted smoke alarm can significantly increase the likelihood of early detection and survival in an emergency. People can leave more quickly the earlier they are notified. However, audible alerts are ineffective for alerting people who are hard of hearing or deaf.
Smoke alarms with strobe lights alert the audio-impaired and are commonly used in office buildings. In residences, aged care, and medical facilities, bed shakers can be deployed to alert sleeping occupants to ensure the maximum possibility of a safe, orderly evacuation.
Voice evacuation systems use an audio message that has been recorded to alert people to the situation and provide them with safety instructions. This approach enables the delivery of specific instructions to employees and visitors at various locations throughout the structure and is believed to reduce potential anxiety brought on by harsh alarm tones, which aids a safe, orderly evacuation.
- “Internet of Things” (IoT)
IoT, a technology that leverages the internet to exchange information between various devices to enhance those devices’ capabilities, is all around us. IoT has the power to modernize and revolutionize fire safety systems. How?
One major benefit of an IoT system is that it is centrally administered, meaning the complete fire safety system is run automatically by one computer and one piece of software. The foundation of many conventional fire prevention systems is a linked alarm system. However, the monitoring and maintenance needs of each manufacturer are different, which can leave gaps in your fire detection and prevention system.
IoT makes the data connection between fire detection and life processes quicker and more reliable by enabling facility managers to access the entire fire safety system from a single location or device, such as a tablet or smartphone. Mobility during an emergency greatly increases the ability to respond and act appropriately.
- Analysis of Big Data for Predictions
There is potential to improve risk assessment through big data analysis. While this potential is still being examined, the ability to rapidly analyse huge volumes of data is expected to allow engineers to create actionable insights. These insights range from optimising site layouts to reduce the time required to give emergency help to selecting the most effective placement of specific fire prevention or suppression technologies, all of which could increase the life-saving capabilities of the system.
Predictions for preventive fire protection would leverage population statistics, building data, geographic information systems, sensors inside the building, weather, deployment statistics for the fire service, and data on fires.
- Water mist systems
Water mist systems, as opposed to straightforward water sprinklers, produce significantly smaller droplets, reducing the amount of water utilised and expanding the region where water is dispersed. These systems effectively produce steam, which replaces oxygen—the main fuel for the fire, and lower the temperature overall more quickly. Additionally, it forms a water barrier on surfaces, slowing the rate at which fire spreads.
Every second counts when a fire starts to reduce potential damage, injury to nearby residents, and disruption of facility operations. The tools mentioned above show how new fire protection technologies are changing the future and, when deployed by fire protection services in Brisbane, can make it possible to respond to fires faster and more skilfully than ever before.