MOBILITY AND ECOLOGICAL AWARENESS
ETCAR reimagined the car wash procedure and developed a brand-new, eco-friendly franchise system that our partners can quickly learn and utilize. The work can be done by scooter, by bike, or even (in a lot of huge cities) by public transport.You can apply to be a franchise partner from any European country! Make the most of our tried and tested service principle and pre-designed services. After applying, among our experts will contact you. After the contract is signed, you will receive the starter pack that has all the equipment you require for car cleaning and cleaning up. You can take part in our trainings; you will get all the required directions and discover the right cleaning strategies.
I want to be an ETCAR franchise partner! What Is Ozone?
zone is produced naturally by short-wave solar ultraviolet radiation and appears in our upper atmosphere ozonosphere in the form of a gas. Ozone also might be produced naturally by passing an electrical discharge-- such as lightning-- through oxygen molecules. Lightning is an ideal example of making an abundance of O3 to cleanse the earth's atmosphere Nature's method. Most of us have seen the tidy, fresh odor in the outdoor air after a thunderstorm, or the way clothing smells after it has actually been dried outside on a clothesline in the sun. Oxygen transformed to ozoneHere's how Ozone Particles (O3) are converted from Oxygen (O2) as a result of an electrical charge: Oxygen, as we know, has two atoms. High voltage, as from lightning, breaks these 2 atoms apart. Rapidly, these atoms hop back together in 3s (O3). Confused, these atoms do not like this arrangement and want frantically to liquify this unpleasant trio. Ozone molecule oxidizing pollutantSo as this O3 molecule floats in the air, if among the atoms identifies an impurity particle, it breaks away from the other 2 atoms and connects itself to the pollutant. This attachment is actually an attack on the pollutant (oxidation) and produces a microscopic explosion. Both the impurity and the atom are damaged. This leaves the other 2 atoms behind as pure oxygen (O2) without the existence of the impurity. The surge alters the pollutant into carbon dioxide and hydrogen, which we can breathe. Ozone is highly reactive, so it connects with most contaminates and irritants it comes across, rendering them harmless while also getting rid of smells. Ozone can be efficient against chemical sources, germs, mold, smells, etc.
Once a contaminant is oxidized by ozone, it is no longer poisonous, allergenic or smell triggering. As a result, even if an oxidized contaminant remains in the air and is breathed in, it has no negative effect. Microorganisms such as mold spores or germs that have been exposed to ozone are no longer able to reproduce, which triggers their numbers to rapidly decrease. However, ought to the O3 particle not discover an impurity in its environment, it will assault itself to change its configuration of O3 back to O2 (regular oxygen) in 20 to 30 minutes at room temperature and typical humidity. "Ozone controls surface mold on plans and walls and decreases scale development and decay. The existence of ozone considerably decreases the occurrence of mold"
American Society of Heating, Refrigeration and Cooling).
How Else Does Ozone Cleanse?
Ozone is also biocidal, which suggests it eliminates harmful biological and bacterial contaminants. This biocidal action arises from its reaction with the double bonds of fatty acids in bacterial cell walls, membranes and the protein capsid of follow this link viruses. In bacteria, the oxidation leads to a change in cell permeability and leak of cell contents into service. Ozone attacks these cell walls, breaking down membranes and ultrastructural components of the organism. In more basic terms, the unsteady electrons of ozone blast holes through the membranes. This happens by cell lysing or bursting the cell wall of infections, bacteria, yeast and abnormal tissue cells, consequently ruining them by inactivation of the microorganism's enzymes. In infections, modification of the protein capsid prevents the infection from being taken up by prone cells.Ozone shows an "all or nothing" effort in regards to ruining bacteria. It is such a strong germicide that just a couple of micrograms per liter are needed to demonstrate germicidal action. Aspects like humidity, temperature, pH, ozone concentration levels, type of organism and time, figure out the kill rate for pathogens. After oxidation, ozone returns to its initial type of oxygen, without leaving any harmful spin-offs or residues.