As a matter of fact, ozone is actually a gas consisting of three oxygen atoms and is put to different uses. Some of the common uses include treating bottled water and municipal water, preservative of food especially under cold storage, and also for sanitation. Using Ozone Sanitation processes is based on the fact that the gas acts against a wide range of viruses, protozoa, bacteria, fungi, and biofilms.
This gas has oxidation characteristic or action which makes any element that comes across it unable to resist its sanitization process. The main reason is that destruction through oxidation is more efficient as compared to the use of poisons. Mostly, production of this gas is done by generators on-site. They use electric charges to create it from oxygen atoms.
Afterwards, this gas is channeled into the water for ozonation. The ozonized water can then be used for rinsing, spraying, bathing, or misting as the various forms of sanitation. Nevertheless, the gas usually survives a short period before decomposing back to ordinary oxygen molecules. The process, when used in cleaning remains environment-friendly, and is becoming a preferred disinfectant to chlorine sanitizers across various industries.
With the abilities of ozone-enriched water to effectively kill microbes, it offers a better means of sanitization in that the gas is produced on-site hence eliminating the need for employees to handle, mix, or even dispose of as is the case with other harsh chemicals used in sanitation. In addition, the gas readily degenerates to oxygen hence leaving no residues on the surfaces it comes into contact with.
A number of techniques are applied to the ozone-enriched hygiene processes. This gas, when premixed in water, is usually sprayed directly on floors, walls, and drains. Also, wettable equipment may be used. Other ways of use include centralized and mobile systems that have low-pressure, drop-down and hand-held sprinklers. Consequently, using ozonized water for sanitation eliminates any biofilm accumulation. The resultant overspill of water are usually very clean.
When using this method, you are likely to benefit from certain benefits. First, the mixture is a powerful disinfectant which uses oxidation as the main method. Research indicates that it has the ability to destroy pathogens, contaminants, remove organic and inorganic compounds such as cosmetics oils and lotions in an effective manner as compared to chlorine. Its power is more than a hundred to that of chlorine.
The processes are as well effective in destroying resilient microorganisms that have developed resistance to chlorine over time. On the other hand, the processes are safe and result in no chemical damages. People, equipment, and even pets are never adversely affected by the inherent power in this disinfecting agent. The product never irritates the skin, eyes, hair, or nails and will not cause damages to the hardscapes, fittings, covers, and other equipment.
Also, this compound does not cause irritations either on the skin, hair, eyes, or nails. It also does not destroy fittings, covers, and hardscapes as well as other surfaces applied on. It is also a cheap sanitization method. It also eliminates activities like dosing and management as in dangerous chemicals.
This gas has oxidation characteristic or action which makes any element that comes across it unable to resist its sanitization process. The main reason is that destruction through oxidation is more efficient as compared to the use of poisons. Mostly, production of this gas is done by generators on-site. They use electric charges to create it from oxygen atoms.
Afterwards, this gas is channeled into the water for ozonation. The ozonized water can then be used for rinsing, spraying, bathing, or misting as the various forms of sanitation. Nevertheless, the gas usually survives a short period before decomposing back to ordinary oxygen molecules. The process, when used in cleaning remains environment-friendly, and is becoming a preferred disinfectant to chlorine sanitizers across various industries.
With the abilities of ozone-enriched water to effectively kill microbes, it offers a better means of sanitization in that the gas is produced on-site hence eliminating the need for employees to handle, mix, or even dispose of as is the case with other harsh chemicals used in sanitation. In addition, the gas readily degenerates to oxygen hence leaving no residues on the surfaces it comes into contact with.
A number of techniques are applied to the ozone-enriched hygiene processes. This gas, when premixed in water, is usually sprayed directly on floors, walls, and drains. Also, wettable equipment may be used. Other ways of use include centralized and mobile systems that have low-pressure, drop-down and hand-held sprinklers. Consequently, using ozonized water for sanitation eliminates any biofilm accumulation. The resultant overspill of water are usually very clean.
When using this method, you are likely to benefit from certain benefits. First, the mixture is a powerful disinfectant which uses oxidation as the main method. Research indicates that it has the ability to destroy pathogens, contaminants, remove organic and inorganic compounds such as cosmetics oils and lotions in an effective manner as compared to chlorine. Its power is more than a hundred to that of chlorine.
The processes are as well effective in destroying resilient microorganisms that have developed resistance to chlorine over time. On the other hand, the processes are safe and result in no chemical damages. People, equipment, and even pets are never adversely affected by the inherent power in this disinfecting agent. The product never irritates the skin, eyes, hair, or nails and will not cause damages to the hardscapes, fittings, covers, and other equipment.
Also, this compound does not cause irritations either on the skin, hair, eyes, or nails. It also does not destroy fittings, covers, and hardscapes as well as other surfaces applied on. It is also a cheap sanitization method. It also eliminates activities like dosing and management as in dangerous chemicals.
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