Vapor Fogging And Carpet Cleaning.

Eliminate Bacteria, Odor, Smoke, Mold, Allergens, Environmental Toxins, Or Fragrances.

Vapor fogging is a great way to disinfect your home and kill any potential pests or viruses. Chlorine dioxide is an extremely versatile and compatible product to use for vapor fogging, as it is effective against a wide range of pathogens. We will discuss the benefits of using chlorine dioxide for vapor fogging and provide some tips on how to get the most out of this product.

Improve air quality in your home. Chlorine dioxide is often used in industrial settings as a disinfectant and deodorizer. In the past, it has been used in hospitals to sterilize equipment and prevent the spread of infection. Our solutions are made in the USA, fragrance-free and hypoallergenic. It is also effective in killing mold and mildew in homes and businesses. When vapor fogging, chlorine dioxide fills the air with a mist of disinfectant that will settle on surfaces and kill bacteria or viruses. This disinfects an entire room or building without having to wipe down all surfaces. Disinfect and deodorize every inch of your house. 


Vapor fogging and carpet cleaning is an important part of keeping your home clean and free of bacteria, odor, smoke, mold, allergens, environmental toxins, or fragrances. Disinfect rooms and carpets in animal environments and houses to control odors, bacteria, fungi, contamination, and biomatter like, pet dander, vomit, urine, and feces. Not only will it make your home look and smell more pleasant, but it can also help improve indoor air quality and reduce your risk of respiratory illness. Sanitize turf used in residential landscaping, for dog patches, decorative strips, or fields.


What Is Chlorine Dioxide And What Are Its Benefits For Vapor Fogging

Chlorine dioxide is a chemical compound that is used in a variety of industries, including water treatment, food safety, and public health. It is an effective disinfectant against bacteria, viruses, and fungi. In addition, chlorine dioxide is also effective in controlling odors and smoke. Here are some of the benefits to using chlorine dioxide for vapor fogging and cleaning:

  • Chlorine dioxide is a powerful disinfectant against bacteria, viruses, and fungi.
  • Chlorine dioxide is also effective in controlling odors and smoke.
  • Chlorine dioxide is safe to use around children and pets.
  • Once dry, chlorine dioxide is an environmentally friendly product.

The EPA has found that indoor air is around five times more polluted than outside air, with some buildings having as much as 100 times more pollution. If you are looking for an effective and safe way to disinfect your home, chlorine dioxide is a great option. Follow the tips below to get the most out of this product.

Tips For Using Chlorine Dioxide For Vapor Fogging And Cleaning

  • Make sure to follow the manufacturer’s instructions when using chlorine dioxide.
  • Be sure to ventilate the area well before and after fogging.
  • When vapor fogging, make sure to cover all surfaces in the room that should not get wet, including carpets, furniture, and electronics.
  • Use a face mask and gloves when handling chlorine dioxide.

By following these tips, you can ensure that you are using chlorine dioxide safely and effectively. If you have any questions about using this product, be sure to ask a professional. Be sure to read the labels carefully and follow the manufacturer’s instructions to ensure proper use. Now, Please contact us if you have any questions about vapor fogging or carpet cleaning. We would be happy to answer any questions you may have.

STERILIZING DISINFECTANT FOGGING AND SANITIZING – RESIDENTIAL, COMMERCIAL AND INDUSTRIAL.

Use for public access, residential application, professional HVAC, filters, air ducts, ventilation, motor vehicles, fleets, R.V.s, buses, gym, hotel, church, animal shelter) and other public facilities/industrial applications.As a result 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 use as a commercial fogging agent, mechanical coarse, hand pump, surfaces 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, (sub)floor, carpet, and turf.)

Use-SiteCONCENTRATIONMix EQUAL PARTS 1:1  –  NaClO2 (Part A) and HCl (Part B)
Light –  Non-Food Contact50 PPM50 drops A, with 50 drops B in 1 gallon of water. (2ml = 50 drops)
Moderate – Non-Food Contact100 PPM100 drops A, with 100 drops B in 1 gallon of water. (4ml = 100 drops)
Heavy – Non-Food Contact300  PPM300 drops A, with 300 drops B in 1 gallon of water. (12ml = 300 drops)
HVAC – Vents and Air Ducts500 PPM500 drops A, with 500 drops B in 1 gallon of water. (20ml = 500 drops)
Insecticide or Fumigant725 PPM725 drops A, with 725 drops B in 1 gallon of water. (29ml = 725 drops)

Use as a solution or as a spray, in a manner consistent with usual standards.

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. As a result Chlorine Dioxide For Vapor Fogging And Carpet Cleaning. 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. 

REFERENCES.

Chlorine Dioxide on the Disinfection Student Health Centers of the Indoor Environment in the Elevator. Center for Biotechnology Information. Ching-Shan Hsu. April 2011.
Susceptibility of chemostat-grown Yersinia Enterocolitica and Klebsiella Pneumoniae to Chlorine Dioxide, 49(1): 69–72. M S Harakeh, Appl Environ Microbiol. Jan. 1985
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.
CHLORINE DIOXIDE | Occupational Safety and Health Administration. OSHA Occupational Chemical Database. Dec. 2020
Reregistration Eligibility Decision (RED) for Chlorine Dioxide and Sodium Chlorite (Case 4023). Prevention, Pesticides and Toxic Substances. Aug. 2006. 
Can Chlorine Dioxide Prevent the Spreading of Coronavirus or Other Viral Infections?  K. Kály-Kullai, M. Wittmann. Mar. 2020.
Determination of Chlorine Dioxide in Workplace Atmospheres. Journal of Chromatography A, P. 409-414. Vol 457. Eva Björkholm, Annika Hultman, Jan Rudling. 1988. 
Insecticide and Insecticidal Method.  Takanori Miura Mitsukatsu Yatagai. Aug. 2012.

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