Helps prevent and eliminate of fish diseases in aquaculture systems. Ozone both disinfects and oxidizes pollutants resulting in exceptional water quality.
To protect all of the different types of living organisms which exist in the water aquariums require high quality water in order. The use of Ozone to produce high quality water has become widely used for excellent results.
Ozone in the pharmaceutical and beverage Industries as the best technique for CIP (Clean-In-Place) processes. Water with high Ozone residual can sanitize pipe networks and reduce bio burden more rapidly and cost effectively than heat or chemicals.
In gold and silver extraction processes Ozone can be utilized to recover cyanide from thiocyanate for approximately the same cost as newly purchased cyanide.
Treatment against streptococcosis proved to be more effective than expected resulting in a sharp decrease in mortality rate, improved food conversion, fish growth and a reduction in the use of vaccine and antibiotics.
To achieve maximum yields in fish hatcheries, the inlet water should be clean and free from microorganisms and other contaminants. Ozone treatment helps ensure the highest quality of inlet water thus maximizing the number of ova hatched and resulting in high quality fry.
In addition to the elimination of vibriosis which cause disease, the use of Ozonized sea water has been used to decrease the time required for normal molting and to reduce the total life cycle.
Hundreds of wineries worldwide have adopted ozone for sanitation
The use of Ozone provides the following benefits
Ozone in laundry:
OTSILS FIRST OZONATED LAUNDRY – MANIPAL HOSPITAL SERVICES LTD, HOSKOTE, BANGALORE
The concept of washing clothes with the aid of ozone (O3) gas dissolved in ambient temperature water was first introduced to the American laundry industry in 1991. The system touted the capability of reducing energy use and traditional wash chemicals while recycling most of the wash water for reuse. Since that time, the number of laundries embracing this technology has grown dramatically.
Hot water (energy) Savings (70%-90%). Conventional washing methods require wash water be heated to temperatures in ranges of 60 to 82 C (140 to 180 F) for proper stain removal when used in conjunction with conventional chemicals.With the ozone washing system, no water is heated to more than 32 C to 35 C (90 F to 95 F) and then only in heavily soiled wash loads.
Chemical cost reduction (60%-65%) In conventional washing formulas, a plethora of chemicals are employed : alkali, chlorine bleach, sours, surfactant, and softeners, among others : With the ozone washing system bleach and surfactant are used in addition to ozone, and the amount of softeners and sours are greatly reduced if not completely eliminated.
The oxidizing power of ozone dissolved in the wash water attacks oxidizable soils (for example, protein stains, urine, feces) and chemically transforms insoluble soil into soluble substances. A small amount of surfactant is added to assist the ozone in the emulsification of oil particles that bind soil to the fabric.
Improved linen quality. In independent tests performed on the processed linen, the ozone washing system has equaled or improved the end-product quality.
Wash-cycle time reduction- increased production (10%-45%). The ozone washing system can, almost without exception, reduce the wash-formula time of any laundry facility.
Extension of linen life (25% - 50%). Degradation of the textile traditionally takes place during routine use in the wash wheel, where hot water and a variety of caustic chemicals where not water and a variety of caustic chemicals abrade the dryer or ironer, where high heat further degrades the textile, especially if there are residual chemicals, such as bleach or alkali, left over after the rinsing process is complete. Ozone washing cannot affect the level of linen degradation that takes place during normal use, it does reduce degradation in the wash wheel and drying in the wash wheel and by decreasing the water temperature.
Air Treatment, Algae Removal, Chemical Oxidation, Detergent & Pesticide, Removal of Phenolic compounds ( Tomato Processing ), Landfill Leachate Treatmen, Organic Removal from Potable.
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