How Do Aqueous Ozone Improve Drinking Water Line Sanitation

Ozone sanitation and innovations like electrolytic ozone generators have provided a robust sanitation method in which ozone gas is used to remove harmful bacteria and viruses from water. 

With the threat of COVID-19 looming over our heads, the need for keeping safe from viruses has grown substantially. Therefore, aqueous ozone has taken up the market by storm. Many organizations are quickly acquiring this technology so that it can be used in the production process. Here are four ways electrolytic ozone generators can improve drinking water line sanitization. 

Increased Level of Safety 

Ozone technology is widely accepted in the USA. With a staggering worth of USD $350 Million in 2019, the industry is expected to grow by 400,000 units by 2026. This wide acceptance and growth show that electrolytic ozone generators are safe. Moreover, these generators meticulously remove bacteria and viruses because the ozone gas is created within water electronically. This process eliminates the need to separately create ozone gas, which is potentially harmful. 

A Better Alternative to Chemical Sanitization 

Ozone gas mixed with water through the electrolytic process is substantially safer than using chemicals for sanitizing drinking water lines. Chemicals pose various levels of threats upon exposure, but aqueous ozone has proven to be harmless. This process is considered generally recognized as safe (GRAS) by the FDA. Moreover, this technology helps clean more bacteria than chemicals because it is a strong oxidizer. 

An electrolytic ozone generator creates a form of water that helps oxidize iron, magnesium, and sulfur. Through oxidizing, the ozonated water creates insoluble metal oxides. The newly created particles are then removed with the help of filtration.

Stronger and Faster Than Chlorine 

Electrolytic ozone is considered to be 3,000 times faster than chlorine since it can kill bacteria resistant to chlorine. Such bacteria and viruses include crypto yeast, molds, and cysts. Since the electrolytic ozonation process involves using ozonated water, it can kill all waterborne pathogens. While chlorine can also eliminate these pathogens, a higher volume of chlorine is needed which may not be a safe dosage. Moreover, chlorine is found to leave residue in the water. In contrast, ozonated water quickly turns into oxygen if not utilized. 


Ozonation is a highly cost-effective method of killing viruses and bacteria. Since it is produced when required, there is no cost of excessive usage and no unnecessary transportation fees for moving large vats of chemical sanitation around. It also reduces the use of permits for transporting hazardous chemicals and the cost that incurs with it. 

Electrolytic ozone improves water quality by eliminating bacteria growth and preventing biofilm formation is indeed a major cost saving for managing public and commercial drinking water fountains and beverage machines.

Why Are Electrolytic Ozone Generators Better Than Ordinary UVC?

With the rise of alternative purification methods, buyers may be confused when deciding between ultraviolet technology and electrolytic ozone generators. The introduction of electrolytic ozone generators is a major advancement in water purification, as they deliver better results. Since Ozone generators rely on oxidizing the elements and bacteria in the water, they can sanitize the waterline. Here are three reasons why electrolytic ozone generators are better than UV technology.

UV only “spot” disinfects

Ultraviolet treatment of water lines produces spot disinfection in the line. This means no disinfection occurs before or after the UV-lit area. UV light is unable to uniformly disinfect a water line the way aqueous ozone can. Thus disinfection with UV does not eliminate all the harmful particles in water. Where ozonation kills active organisms, ultraviolet light treatment is limited to eliminating inactive organisms only. UV also requires water to have no turbidity, while ozonation activates immediately and at the injection point. 

UV Has Reduced Disinfectant Rate and High Maintenance Fee

UV is also susceptible to scale formation, which reduces the efficiency; preventing UV technology from eliminating spores, odor, and color. Upon longer usage, the UV bulb’s intensity starts to reduce, and at one point, it becomes useless, adding to this technology’s maintenance costs. 

Electrolytic Ozone Treatment Is Faster Than UV 

Ozone treatment immediately reacts as the gas mixes with water. This reaction is 3,200 times faster than ultraviolet light. The reaction speed makes electrolytic ozone generators capable of reducing turbidity, and suspended dissolved substances do not hinder. This speed keeps the reaction constant and prevents scale formation as well. 

In a Nutshell 

Electrolytic ozone generators have been in the market since 1988 and have seen many improvements in this time. This innovation has been used to protect our health from harmful bacteria and even viruses like COVID-19. It has done an amazing job so far. While many other sanitization methods have gone to market since, electrolytic ozone generators’ overall water disinfectant properties have remained unmatched, creating a USD 350 million market that’s predicted to see further growth. 

BES electrolytic Ozone generators have received over 60 patents and authorizations globally. Currently, they are the most efficient and cost-effective ways to reduce bacteria in water lines. While other methods may have been industry standards in the past, businesses are quickly adopting electrolytic ozone as a preferred way to disinfect water lines due to a myriad of benefits. This shift is ensuring the safety of families, customers, and employees during one of the most urgent health crises of our century.  

BES Group provides solutions for everyday automatic sanitation. Manual chemical sanitation brings risks of residue and risk of poor quality work due to human error. Contact our global website here for more information.