Mass Transit Systems, Busses, Trains, Planes, Subways, And Busses

Mass Transit Systems Busses, Trains, Planes, And Busses are susceptible to bacteria and disease-causing microorganisms. To address this concern, the use of chlorine dioxide as a broad-spectrum antimicrobial agent is widespread in the transportation industry. Its rapid action effectively eliminates odorless and harmful organisms, ensuring a hygienic environment without leaving any residue behind.

Additionally, chlorine dioxide can decontaminate contaminated surfaces from viruses or other pathogens such as E. coli, Salmonella, Listeria, and more. Its superior sanitizing properties make it an ideal choice for cleaning the interior of public vehicles such as buses, trains, planes, subways, and buses so passengers can travel in a safe and healthy environment. This is especially important after the COVID-19 pandemic when public health is of utmost importance.

Chlorine dioxide is a highly effective solution for cleaning and disinfecting various surfaces within mass transit systems buses, trains, and planes. It can target frequently touched areas such as armrests, handrails, seat belts, and other hard surfaces, effectively eliminating germs, bacteria, and viruses. With its proven efficacy, chlorine dioxide serves as a powerful weapon in the fight against transmissible diseases, ensuring the safety and well-being of passengers in mass transit systems.

Mass transit systems are some of the most widely used forms of transportation, with billions of people taking part in different methods such as buses, trains, planes, subways, and buses daily. With so many people traveling on mass transit at any given time, ensuring they are safe from infection or odors is essential. Chlorine dioxide has been proven effective as a disinfectant and deodorizer, making it an ideal choice for sanitizing mass transit systems.

When sanitizing and disinfecting mass transit systems such as city buses or subways using chlorine dioxide, it is crucial to follow the manufacturer’s instructions strictly. Proper handling of chlorine dioxide necessitates wearing protective gear, including goggles, gloves, and a face shield, as its vapors can be hazardous if inhaled. Moreover, ensuring adequate ventilation in the treated area is essential to allow the steam to disperse rapidly and minimize any potential risks.

Chlorine dioxide can be used to eliminate odors found on public transportation. This helps maintain a pleasant atmosphere for passengers while they travel. Furthermore, chlorine dioxide is safer and less toxic, making it a safe and effective option for cleaning and sanitizing Mass Transit Systems, Busses, Trains, Planes, and other forms of public transportation. It can quickly eliminate bacteria, viruses, fungi, spores, molds, and other microorganisms and pathogens from hard surfaces such as seats and handles and soft surfaces like curtains or carpets. Chlorine dioxide can also destroy bacteria, viruses, fungi, and other microorganisms from soft surfaces such as curtains or carpets.

Once applied correctly onto hard surfaces, including floors and walls of mass transit systems buses, trains planes, and subways, chlorine dioxide exhibits its remarkable effectiveness in eliminating microorganisms such as viruses, bacteria, and fungi. Additionally, it offers protection against any lingering odors that may have been left behind by previous passengers or staff members. An added advantage of using chlorine dioxide is its non-corrosive nature, making it a suitable choice for cleaning metal surfaces within these vehicles.

In addition, chlorine dioxide has deodorizing properties and can eliminate strong odors from smoke, mildew, pet smells, and other sources. This helps maintain a pleasant atmosphere for passengers while they travel on public transportation. Chlorine dioxide is also less-toxic and does not leave any harmful residue on surfaces. This makes it a safe and effective option for cleaning city buses, subways, and other forms of public transportation.

Finally, chlorine dioxide can also be used to sanitize mass transit systems buses, trains, planes, and busses when used on these materials, chlorine dioxide will not discolor them, leaving them looking fresh and clean with no residual odor whatsoever. Mass Transit Systems Busses Trains Planes with regular use of this powerful chemical on public vehicles, passengers can rest assured knowing that they are provided with a safe environment free from germs, bacteria, other unwanted microorganisms, and unpleasant odors.

This chemical effectively kills bacteria and viruses and eliminates unpleasant odors. Chlorine dioxide is also known for its fast-acting nature; it can act quickly on contact so that the city bus or subway can be quickly cleaned and disinfected.

By harnessing the power of chlorine dioxide, cities can ensure that their public vehicles remain safe and clean for passengers. This powerful chemical will help to disinfect, decontaminate, deodorize, and sanitize city buses or subways quickly and effectively. With regular use of this product, cities can provide a healthy environment for their citizens to travel in and be confident that their public vehicles are always well maintained.


Use for public access, professional HVAC, filters, air ducts, ventilation in motor vehicles, fleets, R.V.s, buses, and animal transport vehicles. Each gallon will treat approximately 1,000 – 1,500 sq. ft. of surfaces in facilities. 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, 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 and metals.

Use-SiteCONCENTRATIONMix EQUAL PARTS 1:1  –  NaClO2 (Part A) and HCl (Part B)
Light –  Food Contact20 PPM50 drops A, with 50 drops B in 1 gallon of water. (2ml = 50 drops)
Heavy – Non-Food Contact200  PPM200 drops A, with 200 drops B in 1 gallon of water. (8ml = 200 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)

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 PARTS – allow to drench or submerge for 1 minute.


  1. 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. 
  2. Oxidative Elimination of Cyanotoxins: Comparison of Ozone, Chlorine, Chlorine Dioxide And Permanganate, 15):3381-93. Epub. Rodríguez E. June 2007.
  3. A Guide to Drinking Water Treatment and Sanitation for Backcountry & Travel Use. Center for Disease Control and Prevention. Oct. 2022.
  4. 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.
  5. Chlorine Dioxide | Use, Benefits, and Chemical Safety Facts. American Chemistry Council. Oct. 2022.
  6. Infections and Infectious Diseases. World Health Organization Regional Office for Europe. 2001.
  7. Prevention and Control of Norovirus Gastroenteritis Outbreaks in Healthcare Settings. Centers for Disease Control and Prevention. Taranisia MacCannell. 2011.
  8. Effect of Chlorine Dioxide Treatment on Human Pathogens on Iceberg Lettuce. National Center for Biotechnology Information. Karin Hassenberg,* Ulrike Praeger. Mar. 2021.
Our Products Are Eco- Friendly, Economical, Compact, And Versatile,
Create A Personalized Disinfection Solution For Your Specific Needs.
Not Sure Exactly How Much You Need Or The Perfect Concentration?

Leave a Reply

Your email address will not be published. Required fields are marked *