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INDUSTRIAL
by Brad Glocke
GreaseFlush™ Grease Trap Treatment
Hydrocarbon Obliteration
Wastewater Wizard™
Wastewater Treatment
strains was selected for the following complimentary abilities: superior lipase production, tolerating low pH environments, biosurfactant production, organic waste degradation, and odor reduction of volatile fatty acids. The methodology and thought process used to bring efficacious products to customers is done by understanding the parameters associated with each application, and using a systematic, scientific approach.
We continually look for ways to develop unique biological products that solve real world problems.
hydrocarbons and non-petroleum organic wastes. For this reason, BioHOT contains a synergistic blend of petroleum degrading and organic waste degrading bacterial strains. Each strain in BioHOT was selected to work under diverse environmental conditions and provide the most complete digestion of petroleum and petroleum degradation by-products. The product contains proven petroleum degrading strains. As shown in the two graphs the above, gas chromatograph analysis confirmed that these strains metabolize hydrocarbon products such as gasoline, oil, diesel, and BTEX (Benzene, Toluene, Ethylbenzene, and Xylene). The bacterial cultures in this blend are also beneficial in treating soil tainted with hydrocarbons. Soil treatments can be spray applied or tilled into the contaminated soil. The addition of nutrients in soil applications to balance the system often shows increased activity.
WastewaterWizard™ contains a unique blend of non-engineered cultures that rapidly digest organic wastes. These bacteria are supplied on a proprietary micronutrient carrier that provides accelerated germination, growth, and enzyme production to maximize the reduction of BOD, COD, suspended solids, ammonia, and odors.
Our total system approach begins with the Wastewater Treatment Questionnaire. By reviewing the completed questionnaire, our technical staff will have a better understanding of the system to be treated and the problems occurring in the system. Technical staff was asked to develop a treatment schedule to reduce the Biochemical Oxygen Demand (BOD) of the effluent from a food processing wastewater treatment plant. Utilizing the Total System Approach and information gained from the Wastewater Treatment Questionnaire, the decision was made to augment with a nutrient blend as well as the bacteria in WWW. Adjustments were also made to the pH and dissolved oxygen levels in portions of the treatment system. As demonstrated above, this approach resulted in a very quick reduction in the BOD of the effluent.
