1
Device Description
After the reactant oxidizes the oxygen atoms, the OZ-G1000 molecules will be converted into oxygen
molecules.
Atomic oxygen recombines with oxygen molecules (A) to form OZ-G1000.
Due to their metastable bonds, unoxidized OZ-G1000 molecules will also decompose into oxygen after
a period of time without leaving harmful residues. In indoor spaces and under normal conditions, the
half-life of OZ-G1000 is approximately. 30 to 60 minutes. This means that the OZ-G1000 concentration
in indoor air is naturally reduced by at least half every hour.
The OZ-G1000 of the Abestorm series uses oxygen in the surrounding air as a molecular compound.
OZ-G1000 is a very powerful oxidant with high reaction potential. This makes it an effective agent for
decomposing destructive substances in the surrounding air. The free radicals bound in the OZ-G1000
molecule are separated from the molecular compound (B) and react with all substances in the
surrounding air, even if these substances are only present in a small concentration. The oxidative
decomposition of pollutants in the air and immovable pollutants (for example, on the floor, wall or ceiling)
will eliminate and eliminate odors by killing viruses, bacteria, molds.
The OZ-G1000 sucks in the surrounding air and performs a discharge procedure. After that, energy
breaks the diatomic oxygen molecule into two single oxygen atoms in the form of free radicals.
Structure
6.Bottom shell
1.Upper shell
2.Plastic handle
5.Fan
4.Gasket
7.Circuit board
protective shell
3.Knob
8 Circuit board
.
9.Generator
8
7
6
2
3
9
1
4
5