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Cum purifica
ionizatoru
AromaMAX™
aerul
Ozonul oxideaza poluantii aeropurtati si apoi revine la molecule de O2
trasformand astfel aerul poluat in aer pur si proaspat.
Procesul de
ionizare functioneaza astfel:
Moleculele de oxigen (O1 si O2) sunt transformate in molecule de ozon (O3) fie
printr-o descarcare electrica la tensiuni foarte mari (cum ar fi cele din cazul
fulgerelor) sau prin folosirea luminii ultraviolete (cum ar fi cea din razele
soarelui). O molecula de oxigen (O1) se desprinde din molecula de ozon si
reactioneaza cu celelalte particule poluante din raza sa de actiune. Ozonul este
foarte instabil ceea ce duce la producerea acestei reactii.
Fiind unul dintre
cei mai oxidanti care exista, atomul singular de oxigen incepe sa oxideze
particulele care reactioneaza cu el. Mai exact acesta arde particula respectiva
care isi schimba proprietatile fizice. Ca rezultat, particula nu va mai fi
toxica si nu se va mai putea reproduce (daca este biologica). Cu alte cuvinte
particulele respective devin inofensive.
Cand molecula de
oxigen (O1) oxideaza particula aceasta este de asemenea distrusa. Acest proces
lasa in urma molecula de O2 ramasa din ozon, adica aer proaspat si curat.
Effectiveness of Ozone at Low
Levels
Russian scientists performed a study to see how effective ozone was at improving
indoor air quality in schools. Respiratory-related illnesses were drastically
improved after the ozone systems were installed. The ozone concentration
produced by the systems was 0.015 ppm (parts per million).
Two scientists, Elford and Van den Ende, tested the
performance and it was found that ozone effectively destroyed bacteria at 0.04
ppm. In addition numerous publications have published studies showing the
effectiveness of lower concentrations ozone (0.01 to 0.03 ppm) at removing odors
and pollutants. Some of these include the Refrigeration Service Engineers
Society (RSES), U.S. Air Force technical publications, and Manufacturing
Chemist.
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Test Results
Disinfections of the pollutants
below were measured in identical conditions within a containment chamber, with
one exception. In one chamber, the pollutants were exposed to a relatively
stable 0.05 parts per million of ozone concentration, and normal room air in the
other chamber (close to 0 ppm). Pollutant count measurements were taken before,
during, and after the 4-hour testing period. Each chamber began with an
identical amount of the tested pollutants.
|
Test Pollutant |
Beginning Count |
No Ozone
(After 4 hrs.) |
Ozone (0.05 ppm) after 4 hrs. |
Approx. Ratio* |
|
Staphylococcus |
7,250,000 |
6,320,000 |
940,000 |
7:1 |
|
Aspergillus |
4,500 |
5,500 |
1,500 |
5:1 |
|
E. Coli |
3,500,000 |
16,500 |
2,500 |
7:1 |
|
Salmonella |
2,500,000 |
11,200 |
4,180 |
3:1 |
|
Candida |
200,000 |
560,000 |
3 |
186,666:1 |
* Ratio of how much more
pollutants remained in the "non-ozone" chamber than the "ozone" chamber after
the 4-hour testing period.
Statements from Professional
Studies on Ozone
ASHRAE (American Society of Heating, Refrigeration, and Air Conditioning):
"Ozone controls surface mold on packages and walls, and reduces scale
development and decay. The presence of ozone significantly reduces the
occurrence of mold."
Refrigeration Service Engineers Society (RSES):
"Ozone is one of the purest and most powerful oxidants and germicides known."
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Professional Studies on Ozone
Safety
Ozone is completely safe and effective when occurring within FDA and OSHA
standards of 0.05 ppm (parts per million). In healthy and clean outdoor
environments, ozone occurs between 0.02 ppm and 0.05 ppm. Ozone has not been
found to be harmful to the lungs until occurring at concentrations of 0.1 to 0.2
ppm. However, it is very difficult (if not impossible) to adjust most ozone air
purifiers to produce anywhere close to this amount of ozone.
The Refrigeration Service Engineers Society has reported that
electric-arc welders exposed to ozone levels of 0.2 to 0.3 ppm (parts per
million) for a decade showed no adverse effects. Also, according to the 1961
Encyclopedia of Chemical Technology, "During the 80-year history of the large
scale usage of ozone, there has never been a human death attributed to it." To
this day, there has still never been a single human death or incident of harm
attributed to ozone.
Ozone was widely used in hospitals, during the first half of
the 20th century, and is still widely used in European hospitals. In addition,
millions of ozone air purification systems are in use worldwide, both
commercially and residentially. Environmentalists now realize that to be fully
protected people need to have Ionizers in their vehicles where most pollution
gets trapped in this closed environment. However, the AromaMAX maintains the
proper levels (0.02 ppm to 0.05 ppm). The automobile will have a pleasant and
clean smell to it at all times. With the AromaMAX Ionizers, you
will not smell ozone but only the aroma of the therapy health tablets that you
insert in the “fragrance basket”. Your automobile will immediately have a
pleasant fragrance and at the same time air quality will be enhanced.
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Guaranteed Proper Ozone Levels
with AromaMAX™ Ionizer
The AromaMAX Ionizers will produce about 0.02 ppm to 0.04 ppm (parts per
million) of ozone, which is well within the safety standards of 0.05 ppm of the
FDA and OSHA. Other types of air purifiers over produce ozone however, if this
ozone becomes trapped in a smaller area than what the unit was rated to cover,
the ozone level can become too high
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