Use Chlorine Dioxide To Disinfect, Decontaminate, Deodorize, And Sanitize Stadiums, Bleachers, And Large Arenas
Chlorine dioxide is the best way to disinfect, decontaminate, deodorize, and sanitize stadiums, bleachers, and large arenas. It is a powerful oxidizing agent used for years in Chlorine dioxide-treated water facilities to kill bacteria, viruses, and other microorganisms. Chlorine dioxide is also effective in removing mold and mildew from surfaces. It is a great way to sanitize and deodorize stadiums, bleachers, and large arenas because it kills germs quickly. Chlorine dioxide is odorless and does not leave any residues on surfaces. It has also been proven more effective than other disinfectants for removing odors from sports equipment. In short, chlorine dioxide is the best option for disinfection in stadiums, bleachers, and large arenas. Not only will it provide excellent germ-killing power, but it will also leave the surfaces smelling fresh and clean. It is efficient, reliable, and cost-effective, making it the perfect solution for disinfection in all sporting venues.
In addition to its germ-killing power, chlorine dioxide also provides other benefits. For example, it can reduce the spread of disease in sports arenas by killing germs on contact with athletes’ skin and equipment. In addition, it can also help reduce odors in stadiums and large arenas thanks to its powerful deodorizing capabilities. Finally, chlorine dioxide is safe for humans and animals because it does not produce toxic fumes or emit harmful chemicals. This makes it ideal for effective disinfection in stadiums, bleachers, and large arenas.
Chlorine dioxide is the best way to disinfect, decontaminate, deodorize, and sanitize stadiums, bleachers, and large arenas (1). These areas are often high-traffic places, with multiple individuals having been in contact with each surface. Chlorine dioxide can be used as a quick and effective solution for reducing the number of active viruses on surfaces without leaving any hazardous byproducts behind (2).
In addition, chlorine dioxide is non-toxic and safe to use in public spaces. Furthermore, it is cost-effective compared to other solutions and easy to store, transport, and use. Finally, it has a long shelf life, so even after extended periods, there is no need to reapply the disinfectant.
Chlorine dioxide is the best way to decontaminate, disinfect, deodorize, and sanitize stadiums, bleachers, and large arenas due to its quick action and effectiveness at reducing the number of active viruses on a surface without leaving any hazardous byproducts behind. (3)
FOGGING AND DISINFECTING LARGE SPACES. HARD (NON-POROUS), AND SOFT (POROUS) SURFACES, ODOR, AND AIR.
Use for public access, residential application, professional HVAC, filters, air ducts, ventilation, fogging agent, mechanical coarse, hand pump, or spray. The OSHA STEL value to which ClO2 in the case of the workplace atmosphere is 0.30 PPM concentration tolerable for a 15 min period without any damage. Each gallon will treat approximately 1,000 – 1,500 sq. ft. of surface. Prepare activated solution to a strength consistent with the maximum threshold for a strength consistent with threshold in medical facilities, livestock areas, where a powerful biocide is needed, to remove airborne pathogens, for water damage and mold remediation on porous, and NON-porous surfaces including concrete, asphalt, metal, (sub)floor, carpet, and turf.
|Use-Site||CONCENTRATION||Mix EQUAL PARTS 1:1 – NaClO2 (Part A) and HCl (Part B)|
|Moderate – Non-Food Contact||100 PPM||100 drops A, with 100 drops B in 1 gallon of water. (4ml = 100 drops)|
|HVAC – Vents and Air Ducts||500 PPM||500 drops A, with 500 drops B in 1 gallon of water. (20ml = 500 drops)|
|Insecticide or Fumigant||725 PPM||725 drops A, with 725 drops B in 1 gallon of water. (29ml = 725 drops)|
Mix in the bottom corner of a designated plastic mixing container. Let the solution activate for 1 minute before dilution, then fill the container with water. Agitate until mixed. Use as a solution or as a spray, in a manner consistent with usual standards. Fogging is to be used as an adjunct to acceptable manual cleaning and disinfecting for room and environmental surfaces. People must vacate the premises during fogging treatments; a one-hour restricted entry interval (REI) is required. When fogging, VeriSan™ proper respiratory and ventilation protection must be worn. NIOSH / MSHA approved respirator with an Organic Vapor / Acid Gas Cartridge. Secure proper respiratory and eye wear protection prior to activation.
- SPRAY / FOG – allow visible wetness for 5 minutes before drying.
- MOP – allow visible wetness for 5 minutes before drying.
- SWAB / SPONGE – allow visible wetness for 5 minutes before drying.
- SOAK / IMMERSE – allow to drench or submerge for 1 minute.
- FLUSH / FILL – allow to drench or submerge for 1 minute.
- DIP / RINSE – allow to drench or submerge for 1 minute.
- Can Chlorine Dioxide Prevent the Spreading of Coronavirus or Other Viral Infections? K. Kály-Kullai, M. Wittmann. Mar. 2020.
- Chlorine Dioxide Gas Decontamination of Large Animal Hospital Intensive and Neonatal Care Units, P. 144-154. Applied Biosafety 11(3) Henry S. Luftman. © Absa 2006.
- Prevention and Control of Norovirus Gastroenteritis Outbreaks in Healthcare Settings. Division of Healthcare. Taranisia MacCannell, Craig A. Umscheid. 2011.
- Efficacy of Chlorine Dioxide as a Gas and in Solution in the Inactivation of two Trichothecene Mycotoxins.. S. C. Wilson, International Journal Of Toxicology. May 2005.
- Inhibition of Hyphal Growth of the Fungus Alternaria Alternata by Chlorine Dioxide Gas at Very Low Concentrations, 127(4):773-7. Japanese. Morino H. April 2007.
- Mechanisms of Inactivation of Poliovirus by Chlorine Dioxide and Iodine. P. 1064-1071. National Center for Biotechnology. Maria E. Alvarez, A. 1982.
- Disinfection of Football Protective Equipment Using Chlorine Dioxide Produced By The Ica Trinova System. BMC Public Health. Anthony L Newsome, John D Dubois. 2009.
- Chlorine Dioxide Gas Decontamination of Large Animal Hospital Intensive and Neonatal Care Units, P. 144-154. Applied Biosafety 11(3) Henry S. Luftman, © Absa 2006.