Vaporized hydrogen peroxide sterilizer has stronger killing ability. The efficiency of vaporized hydrogen peroxide sterilizer is much higher than that of liquid hydrogen peroxide, and it can achieve ultra-wide disinfection to a certain extent. At present, no microorganisms that cannot be sterilized by vaporized hydrogen peroxide sterilizer have been found, so it has good disinfection in the field of disinfection. Sterilization. Compared to liquid hydrogen peroxide, vaporized hydrogen peroxide sterilizers can kill many microorganisms that liquid hydrogen peroxide cannot. Then, let’s take a look at the many conveniences that vaporized hydrogen peroxide sterilizers bring to disinfection.
Hydrogen Peroxide Sterilizer
When the upper coverage area is larger, the consumption is lower, and the vaporized hydrogen peroxide sterilizer is used for culling treatment, the culling treatment without dead ends can be carried out. Its use has more space and smaller volume, keeps it vaporized, and can blow gaseous hydrogen peroxide farther aerodynamically. This also means that the same size air system can make the gaseous smaller in the same processing space. The use of vaporized hydrogen peroxide sterilizer can greatly improve the culling area and culling effect. To a certain extent, resources are saved, and work efficiency is also improved.
Before discussing, a concept needs to be clarified. Vaporizing hydrogen peroxide sterilizers display droplets with small particles, but with all the chemical properties of liquid hydrogen peroxide.
More powerful sterilization ability of vaporized hydrogen peroxide sterilizer
In order to understand the chemical properties of hydrogen peroxide, the efficiency of vaporized hydrogen peroxide sterilizer is much higher than that of liquid hydrogen peroxide, and it can carry out ultra-broad-spectrum sterilization. Nothing has been found so far, but the liquid has not been the case. Prions for example have no effect. There are various pathogens in the indoor environment. We cannot determine which pathogenic microorganisms exist before culling, and we cannot target them for culling. We can only cull them all. Therefore, broad-spectrum and culling ability are very important.
The killing ability of hydrogen peroxide in the state of gaseous plasma is much higher than that of liquid hydrogen peroxide, so the consumption of cubic meters of killing at the same level is much lower than that of liquid hydrogen peroxide. To achieve 99.9999% of Bacillus thermophilus Killing standard, 6-10ml of 7.5% Bacillus peroxide per cubic meter
Scientific investigations show that traditional spray disinfection can cover 70% of the surfaces in the indoor space. This data does not take into account the larger “undead” surfaces caused by possible errors. We understand this data with common sense. Manual application cannot reach hard-to-reach corners and high spots. So what about spraying? Is spraying a good method, and it varies according to what is sprayed? Mist or gas, the mist itself is a state of small particles of liquid, which sink under the action of gravity and adhere to the surface of objects to achieve disinfection. However, no matter how small it is, it is fog after all. If it is blocked, it cannot be reached. If it is too high, it cannot be reached. Increasing the spray speed will cause condensation on the roof, and a large amount of fog will converge into the water again. How about sparging gas? Hydrogen peroxide gas is everywhere, it spans many obstacles and spreads as evenly as air to all corners of the space! Bigger space, smaller volume
If you blow stone, water, or air with the same amount of wind, which will blow farther? The same air force can blow gaseous hydrogen peroxide farther. The same aerodynamics means the same size air system, which means that the gaseous hydrogen peroxide equipment can be made smaller in the same processing space.