Dezynfekcja za pomocą ozonu - ozone disinfection.

 

Information about Lnw Korona Ozone Air Purifiers 

Ozone air purification systems produce clean and purified air through ozone oxidation technology. Ozone air purification and our ozone air purifier systems provide disinfection and odor control for ozone air environments. The high oxidation potential of ozone is utilized to its greatest advantage with ozone air purifier equipment manufactured by Lnw Korona . 

Ozone air purifier oxidation of odor and cleaning of exhaust gases such as sulfur, nitrogen and carbon bearing gases results in ozone air purification and make the Lnw Korona air purifier process a very successful ozone air purification treatment option. Ozone air purifier products from Lnw Korona are of high quality and the ozone air purifier improves the air quality by reducing indoor air pollutants that filters cannot contain. 

The ozone air purifier completely breaks down odors and other pollutants at the source through our air purification systems. Lnw Korona is the leader in ozone air purification technology and ozone air purifier systems in Poland. Lnw Korona is available to answer any questions you may have about ozone air purification and air purifier system processes through the use of ozone technology. 

Sick Building Syndrome. As buildings get tighter to conserve energy, they also become containers of pollutants. The sources vary from the release of chemicals from new carpets, to the natural breakdown of polymers used to make paint and furniture, to copying machines and cleaning fluids, to the exhalants from the people themselves. A 1986 EPA study found some new buildings with "levels of chemicals that were 100 times higher than outdoor levels." The results are drowsiness, headaches, irritability, chills, forgetfulness, and reduced productivity. Less often, but with more critical results, are airborne viral and bacterial infections such as Legionnaires' disease. 

Meeting minimum interior air quality requirements often involves forced input of exterior air for dilution of the contaminants. This not only has limited effectiveness, but it is expensive, particularly when heating or cooling is required. When interior contaminant levels are very high, such as in parking basements fouled with automotive exhaust, the costs can be exorbitant while still producing a quality only generously described as acceptable. 

Lnw Korona has the necessary technology and equipment. State-of-the-art scrubbers are available to clean various quantities of air. When the problems of air contamination have been converted to contaminants in water, they can then be efficiently destroyed by using our proprietary ozone reactors. These are real solutions, not just the transfer of pollutants from one medium to another. What were foul and dangerous contaminants become totally deodorized and destroyed or converted to non-toxic, biodegradable compounds which can be safely disposed of. 

For residential applications to remove malodorants, combat mold and mildew, and destroy allergy micropollutants, we recommend a corona discharge household ozonator. Keeping the ozone gas concentration below .05 ppm generates an atmosphere similar to the clean, fresh air feeling after a thunderstorm. 

We invite your inquiry. Lnw Korona consulting services and guaranteed equipment can provide cost-effective solutions to your air quality problems. Contact me. 

Quality Ozone Disinfectant Technology

 

For ozone disinfection solutions, trust the leaders in ozone disinfection. Lnw Korona ozone disinfection solves water quality, wastewater treatment and air pollution control problems. Lnw Korona ozone disinfection is accomplished utilizing, state-of-the-art, proprietary ozone reactor technology coupled with other innovative unit disinfection processes as may be required for a specific application. 

The high oxidation potential of ozone is utilized to its greatest advantage with ozone disinfection equipment manufactured by Lnw Korona. Efficient injectors, static mixers, and a reaction and filter vessel sized for the application make the Lnw Korona ozone disinfection process a very successful disinfection treatment option. The ozone disinfection system completely breaks down pollutants at the source through our ozone disinfection technologies. 

 

Lnw Korona is the leader in ozone disinfection technology in Poland. Lnw Korona is available to answer any questions you may have about ozone disinfection and our ozone disinfection processes through the use of ozone disinfection technology Ozone (O3) is a powerful oxidizer and disinfectant. It is the most effective oxidizer and disinfectant which can be produced commercially at a reasonable cost. Ozone is a form of oxygen which contains in its molecule 3 atoms of oxygen. The oxygen molecule in the air only contains 2 atoms. 

The literature has reported that ozone reacts thousands of times faster than chlorine and consequently disinfects very rapidly. EPA guidelines direct us toward disinfection guidelines with chlorine and ozone. For example, disinfecting with 1 ppm chlorine at a water temperature of 20°C and a pH value of 7 will require a retention time of 75 minutes. The disinfection efficiency achieved will be 99.9 percent. 

Ozonating the same water with ozone and achieving a disinfection efficiency of 99.9 percent using the same temperature and pH and a concentration of 1 mg/l ozone will require a retention time of only 57 seconds. In this example, it applies to giardia in the sample water. Contrary to chlorine, which always leaves an oxidation or disinfection byproduct, ozone simply will revert back to oxygen. As a matter of fact, during the oxidation or disinfection process, only one oxygen atom is used for the chemical reaction. 

Another significant benefit of ozone gas is that it is generated on-site and as needed. There is no chemical to store and no residual disinfection byproducts to monitor. 

Disinfection is the destruction of pathogens in the water, particularly bacteria kill, inactivation of viruses, and removal of parasites. If disinfection is not properly performed, then distributing visibly clear water, which could be completely free of any traces of toxic-carcinogenic or mutagenic products, could be an unacceptable risk because it severely affects and threatens the health of the general population. 

Rather than performing lengthy microbiological laboratory tests on the quality of the water with respect to disinfection, we want to restrict our measurements to a world-wide accepted water quality parameter defined as the oxidation-redox potential (ORP). 

The World Health Organization advises the maintenance of a minimum ORP level of 700 mV for insuring disinfected water in rural areas of the world. 

ORP values are a simple means of determining the environment for microorganisms to survive an aqueous environment. Since both ozone and chlorine exhibit disinfection properties and oxidation power, the threshold ORP value can be determined experimentally which gives us insight into the aqueous environment as to the probability of survival of the microorganisms. Such a chart is displayed above. With respect to ozone where concentrations have been plotted on the abscissa and the ORP value in millivolts of the ordinate, we can see an envelope which develops above an ORP value of 650, beyond which microorganisms, when exposed over a period of several minutes, cannot survive. Therefore, it is a relatively easy task to verify microbiological studies and correlate those with the ORP value of the sample water. 

The fruit and vegetable industry, for example, has reported that in some cases, 30 percent of the harvest is lost due to microbiospoilage. We believe that effective ozone treatment can cut these losses to near zero percent. 

Chemical Disinfection by Ozone

 

It is a powerful oxidising agent and highly unstable. It must be manufactured on site by passing dry air through a high voltage high frequency electrical discharge. It has a more rapid effect than chlorine in destroying viruses and bacteria including spores. It is also effective in eliminating compounds that give objectionable taste and color to water. 

The treatment with ozone should leave 1-2 mg/l of residual ozone. But ozone usually leaves very low level of residuals and thus there is no protection against new contamination of the water after disinfection. The high installation and operation costs further reduce its use as a disinfectant