Oxon2 uses polarity to create stronger bonds between hydrocarbon and oxygen molecules during combustion, reducing the Oxygen/Nitrogen collisions that create harmful NOx emissions. NOx is responsible for respiratory problems in humans and causes damage to ecosystems. The effect of Oxon2 on reducing NOx emissions was verified in a study done by the prestigious University of California at Riversides’ Center for Environmental Research and Technology (CE-CERT)
Oxon2 helps fuel burn more completely, creating more energy and using less fuel to create the same amount of work. An average 15% reduction in CO2 emissions were verified in a study done by the prestigious Free University of Brussel (ULB) at the Qalinca Labs.
With Oxon2, the quantity of fuel that is not combusted is reduced. Incomplete combustion is essentially wasted fuel that ends up as unburned hydrocarbons in the emissions. This includes uncombusted fuel molecules (raw unburned fuel) and carbon monoxide. CO is partially combusted (oxidized) fuel resulting from a lack of oxygen. This results in wasted energy since the C-O bond remains unbroken. The appearance of carbon monoxide in combustion process is generally a simple result of oxygen insufficiently either on an overall or local basis.
The effect of Oxon2 on emissions was verified in a study done by the prestigious University of California at Riversides’ Center for Environmental Research and Technology (CE-CERT).
More complete combustion of hydrocarbon molecules reduces the amount of Particulate Matter (PM) emissions which damage human organs, can aid in the airborne spread of viruses like Covid-19 and create visual haze. PM is primarily created from hydrocarbons that are not completely oxidized. Better homogenization of fuel leads to more complete combustion and less PM creation because almost all hydrocarbons in the fuel are completely oxidized.
These results are confirmed with a test on TransUniao transporte’s buses managed by SPTrans.
Oxon2 increases oxygen availability for combustion. Improved O2 availability makes the fuel more combustible, resulting in less quenching and unburned fuel. This in turn, results in greater combustion efficiency and reduced THC in the emissions.
The effect of Oxon2 on emissions was verified in a study done by the prestigious University of California at Riversides’ Center for Environmental Research and Technology (CE-CERT).
Oxon2 increases oxygen availability for combustion. Improved O2 availability makes the fuel more combustible, resulting in less quenching and unburned fuel. This in turn, results in greater combustion efficiency and reduced THC in the emissions.
The effect of Oxon2 on emissions was verified in a study done by the prestigious University of California at Riversides’ Center for Environmental Research and Technology (CE-CERT).
Oxon2 triggers cleaner and more complete combustion which reduces harmful emissions.
The stronger bonds between hydrocarbon and oxygen molecules reduce the amount of oxygen available to create harmful NOx emissions which cause respiratory problems in humans and damage ecosystems. More complete combustion of hydrocarbon molecules reduces the amount of Particulate Matter emissions which damage human organs, can aid in the airborne spread of viruses like Covid-19 and create visual haze.
The effect of Fuel Matrix on emissions was verified in a study done by the prestigious University of California at Riversides’ Center for Environmental Research and Technology (CE-CERT).
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