BioSafe Distributors TECHNOLOGIES

WHAT IS BIOSAFE DISTRIBUTORS AQUEOUS OZONE TECHNOLOGY? 

BioSafe Distributors uses Aqueous Ozone (AO) technology that converts municipal water into a powerful contaminant-removing, bacteria-killing agent that cleans and sanitizes without the use of chemicals. The highly oxidized water destroys all potentially harmful microorganisms and is a highly effective biofilm, fiber, and surface control agent that can be used to clean and disinfect virtually any environment.

Aqueous Ozone Water has been tested to kill bacteria such as E.coli, Staphylococcus Aureus (MRSA), Listeria, Salmonella, and Human Coronaviruses.  

HOW DOES BIOSAFE DISTRIBUTORS AQUEOUS OZONE TECHNOLOGY WORK?

BioSafe Distributors Aqueous Ozone Water generates an Oxidation Reduction Potential (ORP) of up to 975 mV-orp that provides microbial control to surfaces when the water solution is applied. An oxidation-reduction (redox) reaction is a type of chemical reaction in which the oxidation number of a molecule, atom, or ion is changed and is a direct measurement of the water’s ability to sanitize. Our technology converts cold tap water into a cleaning/disinfecting solution by infusing it with ozone gas. Ozone, or trioxygen, is a triatomic molecule consisting of three oxygen atoms or O3.

  • Step 1. The Ozone Molecules (O3) are dissolved into the water
  • Step 2. The extra oxygen atom attacks and completely destroys all contaminants 
  • Step 3. After complete oxidation, the extra oxygen atom disintegrates and only oxygen (O2)  remains

AQUEOUS OZONE SDS

WHAT IS BIOSAFE DISTRIBUTORS BIOLOGICAL COLD FOGGING TECHNOLOGY? 

BioSafe Distributors Biological Cold Fogging utilizes NEW biocidal technology by neutralizing over 300 Viruses, Bacteria, Allergens, Mold, Spores, and Fungi. The cold fogging process produces a fine mist of tiny micron particles that remain in the air long enough to kill any trace of airborne contamination. BioSafe Distributors Part A and Part B solution settle onto all surfaces, even those untouched by traditional chemical cleaning methods, eliminating any potentially harmful microorganisms. 

BioSafe Distributors Biological Cold Fogging two-part solution eliminates >7 log or 99.99999% of the most common potentially harmful microorganisms including E. coli, Salmonella, C. difficile, Staphylococcus Aureus (MRSA), Listeria, Norovirus, and Human Coronaviruses. BioSafe Distributors Cold Fogging is non-toxic, leaves no chemical residue, is non-corrosive, is 100% biodegradable, and is environmentally safe.

HOW DOES BIOSAFE DISTRIBUTORS BIOLOGICAL COLD FOGGING WORK?

  • Step 1: Equal amounts of Parts A & B Solution are added to a ULV (Ultra-low Volume) Cold Fogger.
  • Step 2: Applied in an even pattern across the area to be treated, an effective amount of biological solution is fogged into the air to achieve adequate coverage of all surface areas.
  • Step 3: When the fogging solution has been applied, all surfaces should remain undisturbed for 10 minutes per our EPA label.  The biological solution then breaks down safely, and relatively quickly by biological means into raw materials and disappears into the environment.  

WHAT IS HEPA FILTERING TECHNOLOGY?

HEPA is a type of pleated mechanical air filter. It is an acronym for “high efficiency particulate air [filter]” (as officially defined by the U.S. Dept. of Energy). This type of air filter can theoretically remove at least 99.97% of dust, pollen, mold, bacteria, and any airborne particles with a size of 0.3 microns (µm). The diameter specification of 0.3 microns responds to the worst case; the most penetrating particle size (MPPS). Particles that are larger or smaller are trapped with even higher efficiency. Using the worst-case particle size results in the worst-case efficiency rating (i.e., 99.97% or better for all particle sizes).

HOW DOES HEPA FILTERING WORK?

HEPA filters are composed of a mat of randomly arranged fibers. The fibers are typically composed of polypropylene or fiberglass with diameters between 0.5 and 2.0 micrometers. Most of the time, these filters are composed of tangled bundles of fine fibers. These fibers create a narrow, convoluted pathway through which air passes. When the largest particles are passing through this pathway, they behave like a kitchen sieve which is blocked physically passing through. However, when the smaller particles pass with air, as the air twist and turns, the smaller particles can’t keep the same motion of air up and they crush with the fibers. The smallest particles have very little inertia and they always move around the air molecules like they are bombarded by these molecules. Because of their movement, they end up crashing into the fibers.