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Ozone Knife Report Study (PDF) |
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[ Print ] [ Back ] [ Forward ] [ Home ] Ozone C.I.P. Systems for the Beverage Industry |
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Ozone is the perfect solution for the Dairy Industry, for plant cleaning, disinfecting, and sanitizing. The following data and images offer clear facts to the benefits of ozone. No doubt you have seen information about the attributes of ozone being an effective agent of against Listeria, E-Coli, Salmonella, Hepatitis, Cholera, and other bacteria and pathogens. Other articles noted USDA -- FDA acceptance in June 2001; Inherent risks of the traditionally used chlorine chemical gas; and several incidents involving recent Listeria recalls. Ozone is Now the Advanced Technology for the Beverage Industries.
The Food and Drug Administration published a final ruling in the federal register accepting ozone as an additive to kill food borne pathogens. The FDA ruling allows for the use of ozone in the processing of all foods, including meat and poultry. The Food and Drug Administration amended its food additive regulations to permit ozone use as an anti-microbial agent. Published in the Federal Register, the final rule allows for ozone use in gaseous and aqueous phases, and for the anti-microbial treatment of meat and poultry. The amendment resulted from a petition, and date provided by the Electric Power Research Institute and the Agriculture and Food Technology Alliance. A large number of processors are using ozone in their hog barns and processing plants. Ozone is Proven Effective.
"Ozone is the most effective antimicrobial agent known," said Durand Smith, director of R&D for Salt Lake City, Utah-based Cyclops Corp's research facilities in Albuquerque, N.M. "It kills E-coli 3,125 times faster than chlorine, and it converts into ordinary oxygen after the process, leaving no chemical residuals behind." “Ozone technology offers many advantages,” its proponents claim. Its efficiency at ambient temperatures is as great as ultra-hot water. And water treated with ozone can be effectively reused requiring limited filtration. Ozonated water can be used anywhere in a packing or processing plant. "Anywhere you're running water through pipes, you can use low-level ozonated water," one insider told TheMeatingPlace.com. "You can use higher levels of ozonated water in cleaning off equipment, conveyor belts, hooks, and those sorts of things-in addition to actually coming into contact with a food product." Companies are also using our Ozone Air Clean Systems. These systems provide low-level ozone which can be used in a gaseous form to help control mold, fungus, bacterial growth and mildew in areas like cold storage and holding rooms. Ozone destroys pathogens by attacking and oxidizing the cell walls of the organism; the mucous membranes. “It doesn't matter whether they are gram-positive or gram-negative. Whether they are spores, whether they are active, or whether they are amoeba-types (or microorganisms). The pathogens are all comprised of double-carbon bonds to hold the molecular structure together, and any microorganisms exposed to ozone will not just become benign in the water, but instead it will be completely evaporated. That's because ozone will continue to break that molecular chain down until it's nothing but carbon dioxide and water," the insider said. |
Removal of dairy soil from heated stainless steel surfaces: use of ozonated water as a prerinse. Guzel-Seydim ZB, Wyffels JT, Greene AK, Bodine AB. Department of Animal & Veterinary Sciences, Clemson University, SC 29634-0361, USA. Square (2.54 x 2.54 cm2) 304 stainless steel metal plates were cleaned, passivated, and soiled by autoclaving (121 degrees C at 15 psi for 15 min) with reconstituted nonfat dry milk (20% solids). Fifteen-minute treatments using either warm water (40 degrees C) or ozonated cold water (10 degrees C) were conducted to compare prerinse cleaning potential of soiled metal plates. The chemical oxygen demand determination was performed on extracted organic material from treated metal plates. Results indicated that the ozone treatment removed 84% of soil from metal plates versus 51% soil removal by the warm water treatment, but the effectiveness of the two treatments did not differ (P > 0.05). Cleaning effects were visualized using scanning electron microscopy at 200x and 2000x magnification. The amount of soil film present on stainless steel metal surfaces was visibly lower on ozonated treatments versus on warm water treatments. PMID: 10984167 [PubMed - indexed for MEDLINE] Antimicrobial effect of ozonated water on bacteria invading dentinal tubules. Nagayoshi M, Kitamura C, Fukuizumi T, Nishihara T, Terashita M. Department of Operative Dentistry and Endodontics, Kyushu Dental College, Kitakyushu, Japan. Ozone is known to act as a strong antimicrobial agent against bacteria, fungi, and viruses. In the present study, we examined the effect of ozonated water against Enterococcus faecalis and Streptcoccus mutans infections in vitro in bovine dentin. After irrigation with ozonated water, the viability of E. faecalis and S. mutans invading dentinal tubules significantly decreased. Notably, when the specimen was irrigated with sonication, ozonated water had nearly the same antimicrobial activity as 2.5% sodium hypochlorite (NaOCl). We also compared the cytotoxicity against L-929 mouse fibroblasts between ozonated water and NaOCl. The metabolic activity of fibroblasts was high when the cells were treated with ozonated water, whereas that of fibroblasts significantly decreased when the cells were treated with 2.5% NaOCl. These results suggest that ozonated water application may be useful for endodontic therapy. PMID: 15505509 [PubMed - indexed for MEDLINE]
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