Bio-Trauma Remediation, Chemical, Or Bio-Matter Decontamination
Chlorine dioxide (ClO2) is a molecule that consists of one chlorine and two oxygen atoms. ClO2 has many industrial and commercial applications, including water treatment, beverage production, and food processing. Professional And Industrial Use Urine. Recently, ClO2 has also been recognized for its potential use in bio-trauma remediation.Commercial use Bio-Trauma Remediation, Fecal, Blood, Urine. Use for exposure to chemicals, sewage, viruses, trauma cleanup involving blood, or other biohazards and hazardous materials. Professional And Industrial Use Urine. In this post, we will discuss the uses of chlorine dioxide in bio-trauma remediation and review some of the recent research on this topic.
How Does Chlorine Dioxide Work To Remediate Bio-Trauma Situations?
Bio-Trauma remediation is the process of decontaminating an area that has been contaminated with hazardous material, such as blood, urine, vomit, feces, and other bio-matter. Bio-trauma remediation aims to remove all traces of restore the area to its original condition. Accidents involving blood present major safety hazards.
Bio-Trauma remediation is the process of decontaminating an area that has been contaminated with hazardous material, such as blood, urine, vomit, feces, and other bio-matter. Bio-trauma remediation aims to remove all traces of restore the area to its original condition. Accidents involving blood present major safety hazards.
Chlorine dioxide is an excellent choice for bio-trauma remediation due to its powerful oxidizing properties. Professional And Industrial Use Urine. Improper blood cleanup waste can lead to serious consequences including disease outbreaks. Professional And Industrial Use Urine. When used proper chlorine dioxide can effectively remove all traces of contaminants from surfaces and materials that have been contaminated. Professional And Industrial Use Urine. Additionally, chlorine dioxide will not damage surfaces as other disinfectants can.
For Bio-Trauma Remediation, Fecal, Blood, Urine, Vomit, Chemical, Or Bio-Matter Decontamination
For bio-trauma remediation chlorine dioxide is an effective sanitizer for various commercial, professional, and applications. Its unique properties make it ideal for bio-trauma remediation and fecal matter, blood, urine, vomit. Professional And Industrial Use Urine. Chlorine dioxide is also effective in breaking down chemical contaminants, making it an excellent choice for industrial sites. In addition, chlorine dioxide is economical and safe to use, making it an ideal choice for various institutions.
Chlorine dioxide is a powerful oxidizing agent used for years in water treatment. Our products do not produce like bleach or HTH and are less caustic, and gentler than bleach or other antiseptics.
- Unlike other chlorine dioxide does not form harmful by-products such as trihalomethanes (THMs) or halo acetic acids (HAAs).
- Additionally, chlorine dioxide is effective at a much lower pH than other disinfectants, making it ideal for acidic or highly alkaline environments.
- It is crucial to follow all safety protocols, instructions and directions to protect yourself and others around you.
FORENSICS, BIOHAZARD, LABORATORY. HOSPITALS, TOUGH JOBS, CRITICAL AND NON-CRITICAL CARE.
Use on porous, and hard NON-porous surfaces, to eliminate biomatter, for morgues, after crime scene or biotrauma cleanup, mold infestations, remediation, and for disinfection that does not vary with pH or ammonia. Empty and remove all physical droppings (medical waste, trash, litter, manure, etc.), from surfaces, prior and/or post disinfection depending on level of contamination to ensure total removal of biohazards. Professional And Industrial Use Urine. Prepare activated solution to a strength consistent with the maximum threshold for commercial fogging agent, powerful biocide, indoor or outdoor premises, to disinfect surfaces in medical facilities, laboratory equipment, computers, electronics, veterinarian facilities, glove, hand, and shoe dip, concrete floors, livestock/agricultural enclosures (remove all people and/or animals for duration of spray) e.g. turf, coops, barns, pens, chutes.
| Use-Site | CONCENTRATION | Mix EQUAL PARTS 1:1 – NaClO2 (Part A) and HCl (Part B) |
| General Disinfectant | 300 PPM | 300 drops A, with 300 drops B in 1 gallon of water. (12ml = 300 drops) |
| Moderate-Severe | 500 PPM | 500 drops A, with 500 drops B in 1 gallon of water. (5 tsp or 20ml = 500 drops) |
| Heavily Contaminated | 1,000 PPM | 1,000 drops A, with 1,000 drops B in 1 gallon of water. (10 tsp or 40ml = 1,000 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 to rinse, immerse, or with a spray device for disinfection treatment in a manner consistent with usual standards. Professional And Industrial Use Urine. For hard, non-porous surfaces and products, e.g. tile, stainless steel, (sub)floors, walls. until the surface is thoroughly wet with an exposure time of 10 minutes at 100 PPM.
REFERENCES.
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Chlorine Dioxide Gas Sterilization Under Square-Wave conditions. Applied Environmental Microbiology. Jeng, D. K. and Woodworth, A. G. Feb. 1990.
Inactivation of Enteric Adenovirus and Feline Calicivirus by Chlorine Dioxide, p. 3100–3105. National Center for Biotechnology.. Jeanette A. Thurston-Enriquez June 2005.
Comparison of Antipseudomonal Activity of Chlorine Dioxide / Chlorous Acid-Containing Gel with Commercially Available Antiseptics. A J Kenyon, S G Hamilton.May 1986.
Effect of Chlorine Dioxide Treatment on Human Pathogens on Iceberg Lettuce. National Center for Biotechnology Information. Karin Hassenberg,* Ulrike Praeger. Mar. 2021.
Methods of Treating or Preventing Influenza Associated Illness with Oxidative Reductive Potential Water Solutions. Oculus Innovative Sciences. Hojabr Alimi, May 2010.
Inactivation of Human and Simian Rotaviruses by Chlorine Dioxide. P. 1363-1366. Applied and Environmental Microbiology. Yu-Shiaw Chen And James M. Vaughn. May 1990.
Efficacy of Chlorine Dioxide as a Gas and in Solution in the Inactivation of two Trichothecene Mycotoxins. Wilson, International Journal Of Toxicology. May 2005.
Susceptibility of chemostat-grown Yersinia Enterocolitica and Klebsiella Pneumoniae to Chlorine Dioxide, 49(1): 69–72. M S Harakeh. Jan. 1985.
Chlorine Dioxide Gas Decontamination of Large Animal Hospital Intensive and Neonatal Care Units, Henry S. Luftman. © Absa 2006.
Infections and Infectious Diseases. World Health Organization Regional Office for Europe. 2001.
Chlorine Dioxide | Use, Benefits, and Chemical Safety Facts. American Chemistry Council. Oct. 2022.
