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"BioSolve is utilized for successful and efficient Bioremediation Enhancement of LNAPLS including petroleum hydrocarbons as well as DNAPLS including Chlorinated Solvents and Perchlorates"
Entrapped non-aqueous liquid phase (NAPL) pollutants (e.g., fuels) constitute one of the biggest current problems in the bioremediation efforts of contaminated soil and aquifers worldwide On site, in situ surfactant-enhanced bioremediation, under the proper conditions, is quickly becoming the remediation method of choice in terms of both technological and economical feasibility.
BioSolve® is a patented, water based, non-hazardous, biodegradable formulation that was specifically engineered as a clean up / mitigation agent for a wide range of hydrocarbon products. Years of testing under laboratory conditions and on numerous field applications have produced the most impressive results.
BioSolve® may be utilized as an amendment to virtually any remedial action plan involving hydrocarbon-based contamination, on both insitu and exsitu applications. BioSolve® micro-emulsifies petroleum-based products separating the long chain hydrocarbons and encapsulating the contaminant in water allowing for a significant acceleration of the natural biodegration process.
BioSolve® is applied, the hydrocarbon degrading bacteria that are naturally present in the environment (air, soil, water, etc.) are able to more rapidly degrade the hydrocarbon material and the BioSolve®. BioSolve® does not contain bacteria cultures. In working solutions, BioSolve® has been shown to increase microbial populations, mass transfer rates and desorption thus increasing the bioavailability of the target contaminant. During the biodegradation process, the bacteria will more readily metabolize the hydrocarbons, with an end environmental fate being carbon dioxide, water, & benign cell mass.
BioSolve® may be utilized in conjunction of other commercially available technologies such as “ORC”®, bacteria cultures or nutrients commonly used for bioremediation of soil or water to enhance their effectiveness while reducing “turnaround time”.
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