Purpose of the development: MBC - microbial biocatalyst (granular), designed for the efficient treatment of industrial waste water from toxic synthetic compounds, ions of heavy metals, radionuclides (137Cs, 90Sr, 60Co, isotopes of uranium, plutonium, americium). Can be used for concentration of the solutions of rare earth and precious metals.

Recommended application field: Ecology.

Advantages over analogues: MBC is a feature of the technology is the automatic activation of the physiological groups of microorganisms that are necessary to detoxify contaminants depending on the composition of the wastewater.

The development stage readiness: Ready for application

Technical and economic effect: Carried out with a positive result, pilot and industrial tests of microbial technology: Special combine "Radon" - cleaning liquid radioactive waste; Municipal engineering plant "Kommash" - cleaning metal-containing electroplating wastewater; Disposal of solid food wastes Ukrainian Antarctic station "Akademik Vernadsky".

Description of the development:
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To create a new universal environmental biotechnologies developed a method for predicting the thermodynamic interaction of microorganisms with xenobiotics ( synthetic organic compounds , toxic metals and radionuclides ) . Developed technology based on granular microbial biocatalyst (ICB ), providing effective cleaning environmentally hazardous industrial wastewater from the major classes of xenobiotics. Methods developed microbial biofuel production ( low molecular weight alcohols, hydrogen and methane ) from organic wastes. Direction includes both fundamental aspects - the study of metabolic pathways , increasing the efficiency of biofuel synthesis and creation of applied biotechnology. Technology is the basis of the granular formulation microbial hydrogen -synthesizing microorganisms. Various modifications of the drug showed high efficiency of producing energy from waste. Mixed vegetable solid wastes: fermentation cycle - 7 days, the degree of degradation of waste - 94% , the yield of hydrogen - 80 liters per kg of dry waste ; Mixed waste cooking : fermentation cycle - 5 days , the degree of degradation of waste - 96 % hydrogen yield 48-50 liters per kg of dry waste ; Liquid waste starch : fermentation cycle - 5 days , the degree of degradation of waste - 97% , the yield of hydrogen -190 liters per kg of starch .

corresponds technical description
Guarantees stable results getting

Possibility of transfer abroad:
Licence's sale
Technological document's sale
Creation of joint enterprise
Realization of finished commodity

Photo

Country Ukraine

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E-mail: gal@uintei.kiev.ua