Low temperature firefighting foam concentrate can maintain good performance in low temperature environment, even in cold winter or low temperature places, it can also play a rapid fire-extinguishing role, which provides more reliable protection for fire safety.
In the 19th century, with the vigorous development of the oil industry, the development of petrochemical technology was mainly manifested in large-scale and integrated development, that is, the increase in storage tank capacity and the emergence of various storage methods, so the safety of storage tanks has become increasingly important.
The system architecture of Electric Riot-Control Water Cannon is built on the integrated framework of fluid dynamics and electric mechanical energy conversion.
There are essential differences between fog fire monitor and ordinary fire water gun in terms of fire extinguishing mechanism. The former uses high-pressure atomization technology to convert liquid water into micron-sized particles to form aerosol clouds, and uses the principle of specific surface area surge to enhance heat absorption efficiency.
Leading companies in the fire protection industry have been focusing on research and development to enhance the performance of fire foam concentrate solutions. These innovations include the development of new surfactants and stabilizers that improve the foam's ability to extinguish fires quickly and efficiently. One such innovation is the use of sulfatised fatty alcohols combined with a small amount of free fatty alcohol or other hydrocarbon derivatives as stabilizers, creating a more stable and effective foam solution.
In a significant step towards modernizing riot control measures, law enforcement agencies across various regions have recently started adopting advanced Water Cannon systems specifically designed for riot control situations. These state-of-the-art devices are not only capable of dispersing crowds effectively but also ensure a higher level of safety for both the police and the public.
