Types of Fire Suppression Systems

Types of Fire Suppression Systems

There are several types of fire suppression systems on the market. We will cover water, CO2 gas, and Pneumatic heat detection tubes. Further, these systems are all effective in different situations. However, knowing what to use and when can be difficult. If you are unsure of what will work best for your building, contact a provider of special hazard systems. They will be able to recommend the best solution for your situation.



Commercial applications for fire suppression systems Staten Island NY ranging from healthcare facilities to office buildings. Many of these facilities have multiple functions, making it essential to choose the right design for the application. For example, some systems utilize water mist, while others use chemical agents. A provider of special hazard systems can help you determine which type of solution is right for your needs. In addition to putting out fires quickly, these systems can also protect valuable equipment and property.

Chemical foam

A chemical foam fire suppression system is a great way to put out a fire in highly explosive environments. While water is effective in some instances, chemicals are much better for these situations. We recommend chemical foam fire suppression systems for our clients in NJ and DE. Read on to learn about chemical foam fire suppression systems and their benefits. We also recommend foam fire extinguishers for your business. 

CO2 gas

CO2 gas is a colorless, odorless, and electrically non-conductive gas used to suppress fires in buildings. This gas does not cause any damage to the surrounding area and is safe for personnel. Because it is odorless and colorless, CO2 does not contaminate the surrounding environment or equipment. It also reduces the downtime of a building after a fire, and personnel can access areas damaged by the fire.

Pneumatic heat detection tubes

A Pneumatic heat detection tube is similar to a fire extinguisher and is considered the most compact system. The tube has two main components: a valve and a heat detection tube. When a specific temperature is reached, the valve blows a small hole in the pipe, allowing an extinguishing agent to enter the area. This fire suppression system is helpful for fires that have not spread too far and are unlikely to cause extensive damage.


Inergen is an oxygen-free chemical that rapidly extinguishes fires by diluting oxygen levels, allowing people to escape safely. This gas is composed of natural substances available in the atmosphere and is environmentally safe. It produces no harmful by-products and is safe for sensitive electronic environments. It is also cost-effective, as cylinders can be placed far from the protected risk area.

Clean agents

Fire suppression systems utilizing clean agents effectively put out small fires because they react quickly and do not leave a residue behind. Using clean agents reduces the amount of oxygen in the air while others absorb heat. The clean agents are safe for human exposure, and most systems containing these agents reach an extinguishing concentration in as little as 10 seconds. This makes them ideal for smaller fires and minimizes downtime.

Inergen(r) is a non-conductive agent that suppresses electrical fires.

The INERGEN agent is composed of three naturally occurring gases. It is non-conductive, which means it doesn’t deplete the oxygen content in the fire-protected area, a critical component for sustaining human life and combustion. Unlike the halocarbon alternatives, INERGEN doesn’t produce fog or heavy vapors, which can obscure escape routes and prevent occupants from finding a safe place to flee. It also has no global warming or ozone-depletion potential. It is guaranteed to meet future environmental standards.

Inergen(r) is a DuPont(r) product

INERGEN(r) is a chemical compound composed of 52% Nitrogen, 40% Argon, and 8% CO2. When a fire breaks out, it mixes with the air in the room to form a gas of 67.3% Nitrogen and 12.5% Oxygen. This unique mixture puts out fires quickly and preserves arterial blood oxygenation, and maintains mental performance even in low oxygen environments.