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Ozone Applications

1,4-Dioxane removal with ozone A New Formulation Based on Ozonated Sunflower Seed Oil: In Vitro Antibacterial and Safety Evaluation AOP Agri-Food Processing Air Treatment Antibacterial Activity of Ozonized Sunflower Oil, Oleozón, Against Staphylococcus aureus and Staphylococcus epidermidis. Antifungal Activity of Olive Oil and Ozonated Olive Oil Against Candida Spp. and Saprochaete Spp. Aquaculture BTEX Remediation under Challenging Site Conditions Using In-Situ Ozone Injection and Soil Vapor Extraction Technologies: A Case Study BTEX removal with ozone Beef (Red Meat) Processing with Ozone Benzene Body Odors Bottled Water Cannabis Catalytic Ozonation of Gasoline Compounds in Model and Natural Water in the Presence of Perfluorinated Alumina Bonded Phases Clean in Place (CIP) Combined Ozone and Ultrasound for the Removal of 1,4-Dioxane from Drinking Water Cooling Tower Cost Effectiveness of Ozonation and AOPs for Aromatic Compound Removal from Water: A Preliminary Study Create your own Ozonated Oils Dairy Farms Degradation of tert-Butyl Alcohol in Dilute Aqueous Solution by an O3/UV Process Drinking Water Drinking Water Disinfection E.coli O157:H7 Reduction with Ozone Effectiveness of Ozone for Inactivation of Escherichia coli and Bacillus Cereus in Pistachios Efficiency of Ozonation and AOP for Methyl-tert-Butylether (MTBE) Removal in Waterworks Ethylbenzene Evaluation of Ozone AOP for Degradation of 1,4-Dioxane Exploring the Potential of Ozonated Oils in Dental Care Exploring the Potential of Ozonated Oils in Hair Care Fire Restoration Food Odors Force Main Treatment Germicidal Properties of Ozonated Sunflower Oil Grain Treatment Groundwater Remediation Hoof Bath Hydroponic Greenhouses In Vitro Antimicrobial Activity of Ozonated Sunflower Oil against Antibiotic-Resistant Enterococcus faecalis Isolated from Endodontic Infection Influence of Storage Temperature on the Composition and the Antibacterial Activity of Ozonized Sunflower Oil Insect Control in Grains Kinetic Analysis of Ozonation Degree Effect on the Physicochemical Properties of Ozonated Vegetable Oils Laundry Laundry Listeria Inactivation with Ozone MTBE removal with ozone Machine Coolant Tanks Measurement of Peroxidic Species in Ozonized Sunflower Oil Mitigation strategies for Salmonella, E. coli O157:H7, and Antimicrobial Resistance Throughout the Beef Production Chain Mold Removal in Grain Mold/Mildew Odors Municipal Water Treatment Mycotoxin Reduction in Grain Nanobubbles Odor Removal Oxidation of Methyl tert-Butyl Ether (MTBE) and Ethyl tert-Butyl Ether (ETBE) by Ozone and Combined Ozone/Hydrogen Peroxide Oxidize Tannins from Water with Ozone Oxy-Oils Ozonated Oils Ozonated Ice & Fish Storage Ozonated Mineral Oil: Preparation, Characterization and Evaluation of the Microbicidal Activity Ozonated Oils: Nature's Remedy for Soothing Bug Bites Ozonated Olive Oil Ozonated Olive Oil Enhances the Growth of Granulation Tissue in a Mouse Model of Pressure Ulcer Ozonated Olive Oil with a High Peroxide Value for Topical Applications: In-Vitro Cytotoxicity Analysis with L929 Cells Ozonation Degree of Vegetable Oils as the Factor of Their Anti-Inflammatory and Wound-Healing Effectiveness Ozonation of Soluble Organics in Aqueous Solutions Using Microbubbles Ozone Gas and Ozonized Sunflower Oil as Alternative Therapies against Pythium Insidiosum Isolated from Dogs Ozone Inactivation of E.Coli at Various O3 Concentrations and Times Ozone Regulations in Food Processing Ozone Regulations in Organic Food Production Ozone in Air Applications Ozone in Sanitation Ozone in Seafood Processing Ozone use for Post-Harvest Processing of Berries Ozone use for Surface Sanitation on Dairy Farms Pet Odors Physico-chemical Characterization and Antibacterial Activity of Ozonated Pomegranate Seeds Oil Pool & Spa Proinflammatory Event of Ozonized Olive Oil in Mice RES Case Studies Resolution Concerning the Use of Ozone in Food Processing Spectroscopic Characterization of Ozonated Sunflower Oil Stability Studies of Ozonized Sunflower Oil and Enriched Cosmetics with a Dedicated Peroxide Value Determination Study of Ozonated Olive Oil: Monitoring of the Ozone Absorption and Analysis of the Obtained Functional Groups Study of Ozonated Sunflower Oil Using 1H NMR and Microbiological Analysis Surface Sanitation TBA Removal with ozone Teat Wash Tobacco Odors Toluene Treatment of Groundwater Contaminated with 1,4-Dioxane, Tetrahydrofuran, and Chlorinated Volatile Organic Compounds Using Advanced Oxidation Processes Treatment of groundwater contaminated with gasoline components by an ozone/UV process Ultra-Pure Water Utilization of Ozone for the Decontamination of Small Fruits Various Antimicrobial Agent of Ozonized Olive Oil Vertical Farming with Ozone Waste Water Treatment Water Re-use Water Treatment Water Treatment Well Water Treatment Xylene

Tobacco Odors

Tobacco Smoke Odor Removal with Ozone

Anyone who has been around smokers, or visited an area where tobacco smoke has been present, knows all too well just how strong the scent produced by smoked tobacco is. Cigarette smoke contains a number of carcinogens which are well-known to physically (and aromatically) agitate and irritate individuals. As many people can attest, the smell from cigarettes tend to densely linger in an area, or on different materials. This is due, in large part, to the number of irritating components in the smoke (phenol, ammonia, carbon monoxide). However, the leading cause of cigarettes' “sticky” odor is the large amounts of tar vapors that cigarettes release.  

 

Where Cigarette Odors are Commonly Present:

There are many different circumstances where cigarette odors can be present, and these instances are seen (smelt) both on a personal level and at a business level. On a personal level, houses, clothes, vehicles, all begin to smell if someone decides to smoke. For businesses, some places allow for indoor smoking like casinos, while others don’t allow it, but may still have to deal with the odor like rentals. 

Individually Commercially
     -Homes/Places of Residence      -Casinos
     -Vehicles      -Bars
     -Clothes      -Pool Halls
     -Carpets      -Rentals (apartments, hotels, cars)
       -Car Dealerships

 

How to Remove Tobacco Odors:

The travelability combined with the stickiness of cigarette smoke is what makes the end-result such a nightmare to try and eradicate. The smoke's travelability creates a problem that can require multiple steps. Take cars for example, in most instances, simply ozonating the inside of a car is not going to completely get rid of the cigarette smell. The upholstery and carpets will need to be deep cleaned, along with the fans, otherwise the smell will simply come back over time. For houses, you will have to consider everything in the house that the smell has absorbed into like furniture, drawers, and even walls. This will be the case for the majority of instances where you are trying to get rid of cigarette odors. 

It can be tough to predict exactly how long it will take to completely get rid of the smoke smell, two main contributing factors are going to be how strong the smell is, and how large of a space you’re trying to get the smell out of. Odor strength matters because a stronger smell means that there are more carbon molecules present. For ozone to get rid of the smell, it will have to react with all of these carbon molecules, resulting in the additional time it may take to complete the odor removal process. As a general rule, you can expect to get rid of the cigarette smell in as little as a day, but it may take about a week at the most. 

 

Cautions:

It is extremely important to note that ozone, while indoors, at high levels, can become harmful to breathe in. It is also probable that to properly get rid of an odor with ozone (in smaller spaces) you are going to need ozone levels above the safety concentration (according to OSHA: workers should not be exposed to an average concentration of more than 0.10 ppm of ozone for 8 hours). Because of this, please make sure that there are no people or animals in an area where high concentrations of ozone are going to be present. For tracking ozone concentrations while you eliminate tobacco odors, we recommend using a handheld ozone monitor which you can find here. 

 

Click Here to see the full lineup of ozone generators we recommend for tobacco odor removal. 

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