The future of fire alarm technologyMayara
Have you ever wondered how technological houses and buildings will be in the near future? Electronics that work through voice command and execute predetermined functions are only the beginning and such developments will make our life not only easier but also safer.
The fire alarm industry is catching up on the most recent developments and will incorporate fire safety technologies, like human-machine interfaces and nanotechnology. Check the article below to find out the future of fire alarm technology.
What is about to change?
According to Global Fire Alarm Market Research, the fire alarm market has grown uninterruptedly in the last five years in the United States. Due to Covid, the sales dropped down in 2020, but experts predict steady growth for the following years. And one of the factors behind the growing demand for fire alarms is technology.
Technological advancements, such as wireless alarm systems, smart water mist technology, Human Machine Interface (MHI) solutions, nanotechnology, and smart buildings are already working their way up into the fire alarm industry. Some of this progress can already be seen in many buildings. In addition, other technological advancements will probably be seen in the next five to ten years.
Wireless communication and fire alarm technology
When talking about the future, wireless communication is already a reality. Usually, a wireless fire alarm system transmits its signal through a radio frequency, replacing the old phone lines. The signal from different devices is transmitted to the control panel via WiFi, and the control panel communicates with the Central Stations also via WiFi.
Wireless fire alarm systems don’t use any wiring between the devices, and among easy installation and appealing visual, there are a few other advantages:
- Easier maintenance;
- Versatile for business with multiple buildings on-site;
- More cost-effective in the long-term.
Besides, wireless communication systems have lower false alarm rates and have permitted distant users to access sensors through local networks.
Siemens technology SWING is a perfect example of how wireless technology can bring advantages beyond the expected. Using wireless transmission through the unique ASAtechnology™, SWING is an ideal solution for rooms or buildings where the aesthetic or architectural aspects can’t be compromised.
Nowadays, most advanced fire alarm systems use wireless technology and smart devices to protect and manage automated buildings from a remote control panel. From the palm of your hand, you can access information to know what is happening to your fire alarm system hundreds of miles away.
Smart water mist technology
Many buildings count with a sprinkler system, but we are not talking about any structure here. Besides its primary function, smart technology water mist systems act in fire prevention in the same way it operates in its combat.
If fire pumps are not working correctly or if there is no water flowing from sprinklers, smart devices can detect such anomalies before anything happens. Without smart devices, the only way to identify such problems is through regular maintenance and inspection, which only happens from time to time.
Smart devices can easily predict and, consequently, avoid large-loss fires caused by problems in the fire alarm system.
If you are not at home, the most advanced fire alarm systems allow you to be aware of a problem or a possible fire in your house almost instantly. Similarly, the authorities are alerted as soon as possible and can respond in the quickest way to a fire situation.
The same works for other properties, such as offices and government buildings. In January 2020, for example, a paging solution was integrated with Honeywell’s Vigilon fire alarm & detection system at school premises. The solution is expected to reduce the response time by alerting the school caretakers and authorities with instant fire hazard notifications.
Nanotechnology is one of the most interesting technological approaches to the fire alarm industry. When exploring its potential, we could have smoke alarms that detect fire particles at a very early stage, particles that resist better to fire, and fire suppression systems using chemical mixtures broken down to particle size to extinguish the fire better.
For example, in the textile industry, flame-retardant particles can be incorporated into clothing, carpets, furniture, curtains, and mattresses. Other compounds have been tested to enhance wood resistance to fire. Different approaches can lead to different ways to protect properties and people against fire.
Fire alarm technology for smart buildings
According to the Smart Firefighting Project, developed by the National Institute of Standards and Technology in 2012, while some smart systems are already being implemented, there is still a long way to go when talking about fire alarm technology.
As codes and standards start to recognize technology’s potential, manufacturers are investing time, effort, money, and knowledge to incorporate such technologies into their products. And it’s only the beginning. If you want to know more about the future of the fire alarm industry, check some products with state-of-the-art technology here.