Odorox® equipment can be used to solve any indoor air problem.
These systems use green technology to provide the most effective and efficient solution to eliminate odours, decontaminate surfaces and purify the air.
From residential and commercial to industrial and agricultural application
How it Works
Mother Nature uses Hydroxyl molecules to cleanse and decontaminate our outdoor environment. However, Hydroxyls do not occur indoors, so HGI developed a patented process, through years of field testing, and created a solution that mimics Mother Nature by safely generating molecules that naturally “seek and destroy” odour molecules, bacteria, viruses, VOC’s, and other chemicals.
The Hydroxyl Generator actually neutralizes odour molecules and gasses by breaking down their chemical bonds. This can be done with even some of the most difficult molecules, such as Hydrogen Sulfide (H2S) and Ammonia (NH3).
Hydroxyls (-OH) are safe, naturally occurring molecules. They are created in the outdoors when the ultraviolet rays of the sun react with water vapor from the air. This is a natural process that constantly occurs in our atmosphere.
Hydroxyls are the single most important agent that scrubs and cleanses our planets atmosphere.
Odorox® Hydroxyl Generators replicate a natural process The HGI Odorox® system utilizes patented technologies that for the first time harness multiple UV light wavelength ranges. These wavelengths combined with ambient air humidity create Hydroxyls, which naturally occur when ultraviolet rays from the sun come in contact with humidity. This is how Nature cleans our atmosphere.
HGI’s main technology is a revolutionary device that generates “superior hydroxyls” that safely eliminates bacteria, mildew, mould, noxious gases, and odours from Volatile Organic Compounds (VOC’s) for use in indoor environments.
Odorox® implements a dual process attack on contaminants.
1. The processing chamber sanitizes airflow and produces hydroxyls (·OH).
2. The hydroxyl (-OH) molecules exit the chamber to decontaminate surfaces and contents.
Processing Chamber Contaminated air is directed into the chamber where ambient humidity and multiple nanometer wavelengths and frequencies combine to create anoxidizing formula and produce hydroxyls. The quartz crystal optics are finely tuned to deodorize air flow, eradicate bacteria and other microorganisms, and produce hydroxyl molecules.
The purified air is recycled back into the environment along with hydroxyls to further decontaminate surfaces & contents.
The Odorox® Cascade Effect Once the hydroxyls are created, they are sent to “seek and destroy” odour molecules, bacteria, viruses, mould, VOCs and other chemicals. Notably, the process simultaneously decontaminates the air, surfaces, and objects. This system does not require all of the contaminants within a room to pass through the processing chamber, which guarantees a more rapid and thorough decontamination.
Outside the unit, the hydroxyls immediately begin a cascade reaction in the air, creating even more hydroxyls. The cascade of hydroxyls quickly disperse throughout the air and penetrates surfaces and objects. The hydroxyl molecule sanitizing pollutants in the far corner of the room is not necessarily the same hydroxyl molecule that exited the generator.
Any quenched hydroxyls are continuously replaced by the system, providing constant decontamination. Odorox® is superior to all other UV technology.
Odorox® produces atmospheric hydroxyls that circulate throughout the air and reaches places where you can’t reach. Wheareas, other UV technologies only clean the actual air that passes over the UV bulbs (about 20% of the air in a room). * It penetrates deep into fabrics, porous materials and everywhere air can reach. * It completely cleans air and all surfaces in contained spaces. * It produces atmospheric hydroxyls strong enough to neutralize viruses and bacteria.
No fumes, no harsh chemicals.
Odorox® technology is 100% green, non-toxic technology that can be safely used around humans and animals while scrubbing the air of biological and chemical contaminants.