NANO LIFE O3 STERILIZER
NANO LIFE O3 STERILIZER
MRP ₹ 7594.00
COMBAT CORONA- BREAK THE CHAIN SERIES
MULTI PURPOSE OZONE BLOWER FOR HOME /OFFICE /RECEPTION /SCHOOL /COLLEGE/
FACTORY STERILIZATION
Disinfection mechanism
Disinfection means
purifying a medium up to the extend that it can no longer cause infective
disease with humans, animals and plants that come in contact with the medium
(mainly water).
Because of its high oxidation potential, O3 oxidizes cell
components of the bacterial cell wall. This is a consequence of cell wall
penetration. Once O3 has entered
the cell, it oxidizes all essential components (enzymes, proteins, DNA, RNA).
When the cellular membrane is damaged during this process, the cell will fall
apart.
The benefit of O3 is that it influences pH and temperature minimally on a broad spectrum. Although O3 solubility decreases when temperatures rise, disinfection rates increase per 10°C (factor 2 or 3). Within the range of 0 – 30°C, these two factors diminish one another . The disinfection rate of O3 hardly changes in a pH range of 6 – 8,5 . For certain resistant microorganisms (such as Giardia Muris), the disinfection rate increases at higher pH values . For other species of microorganisms, this is the other way around.
In addition to the strong oxidizing power of O3, properties of O3 also helps to be an ideal aerial disinfectant. In contrast to UV radiation and HEPA filter, O3 is a gas that could penetrate to every corners of the room, thus it could disinfect the entire room effectively. As O3 is unstable, it is readily converted back to oxygen, leaving no harmful residual ozone after disinfection.
O3 THE MOST POWERFUL NATURAL OXIDISING DISINFECTANT WITH NO RESIDUES
Air Disinfection
Microorganisms cause issues in various places, in a clinical setting bacteria can cause dangerous outbreaks. O3 can be used as a chemical disinfectant to kill bacteria and viruses with low O3 concentrations. The contact time is altered depending on the desired deactivation grade. No chemical residue remains after treatment as O3 naturally decomposes to oxygen. In terms of usage, distribution as a gas enables O3 to reach hard to sanitize surfaces, reaching spots difficult to wipe. Studies has shown that low O3 concentrations are capable of deactivating bacteria and enveloped viruses by reacting with unsaturated fatty acids in the plasma membrane, certain surface proteins and DNA.
REMOVE THE CORONA VIRUS BY CORONA DISCHARGE TECHNIQUE USING NANOLIFE DISINFECTING JET |
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