Innovative Environmental Technologies, Inc. (IET) Awarded United States Patent #7,828,974

Innovative Environmental Technologies, Inc. is proud to announce it has again added to its in-house intellectual property with the addition of a groundbreaking advancement in the materials and technologies available for the remediation of CVOCs.
By: Michael Scalzi, President
Dec. 8, 2010 - PRLog -- Innovative Environmental Technologies, Inc. (IET), has again raised the bar in in-situ remediation of chlorinated compounds!

IET has expanded the tools available for in-situ remediation of soils and groundwater with our most recent patent.  The integration of dried blue-green algae with zero-valent iron takes chlorinated solvent remediation to the next level by utilizing a sustainable "green" technology in which the vitamins, nutrients and organic hydrogen donors contained within a wide variety of aquatic species maybe used to accelerate the complete degradation of chlorinated solvents in the subsurface.

This invention aids in the remediation of environmental contaminants in subsurface soils and groundwater via the stimulation of anaerobic processes. More particularly, this invention relates to remediation processes involving emplacement of solid-phase or aqueous-phase treatment agents with soil fracturing technology. Emplacement of micro-blue green algae and or species of seaweed as electron donors for microorganisms that carry out reductive dechlorination of chlorinated solvent source areas or plumes is illustrative of the invention.

Spirulina is the common name for human and animal food supplements produced primarily from two species of cyanobacteria (also known as blue-green algae): Arthrospira platensis and Arthrospira maxima. These and other Arthrospira species were once classified in the genus Spirulina.  There is now agreement that they are distinct genera, and that the food species belong to Arthrospira; nonetheless, the older term Spirulina remains the popular name. Spirulina is cultivated around the world, and is used as a human dietary supplement as well as a whole food and is available in tablet, flake, and powder form. It is also used as a feed supplement in the aquaculture, aquarium, and poultry industries.

Spirulina is rich in gamma-linolenic acid (GLA), and also provides alpha-linolenic acid (ALA), linoleic acid (LA), stearidonic acid (SDA), eicosapentaenoic acid (EPA), docosahexaenoic acid (DHA), and arachidonic acid (AA).  Spirulina also contains vitamin B1, B2, B3, B6, B9, B12, vitamin C, vitamin D, and vitamin E.

Overcoming these obstacles often demands innovation and an interdisciplinary approach that integrates hydrology, geology, chemistry, microbiology, and economics. In particular, an innovative approach has been conceived, and is described herein, to harness recent advances in the understanding of biodegradation processes involving chlorinated solvents for remediating residual source areas, or for cutting off dissolved plumes, by emplacing solid-phase or aqueous-phase treatment agents into a variety of soil types throughout much larger volumes of the subsurface than has been possible using conventional methods. One embodiment of this innovation involves delivering micro-blue green algae, as an electron donor, into induced fractures in low permeability soils to create and maintain nutrient-rich anaerobic conditions that will promote the long-term bioremediation of a chlorinated solvent or other dense nonaqueous phase liquid (DNAPL) source. A second embodiment of this invention includes the addition of a zero-valent metal with the dried micro-blue green algae such that the dissolved chlorinated solvents are both biotically and abiotically degraded.

Natural attenuation of chlorinated solvents by reductive dechlorination often occurs at sites where an electron donor (food source or substrate for microbes) is present along with the chlorinated solvent contamination. As dissolved oxygen and other electron acceptors become depleted some microbes are capable of using the chlorinated solvents as electron acceptors. For selected compounds such as chlorinated ethylenes sequential dechlorination to a harmless byproduct ethylene can be achieved under favorable environmental conditions (EPA/600/R-98/128 September 1998).

In recent years efforts have been made to produce this anaerobic treatment effect by injection of electron donor into the subsurface. An overview of these technologies can be reviewed in the EPA document Engineered Approaches to In Situ Bioremediation of Chlorinated Solvents: Fundamentals and Field Applications (EPA 542-R-00-008 July 2000). Other inorganic and organic compounds can be degraded or immobilized under anaerobic conditions including selected toxic metals, nitrate, and MTBE. For sites that do not have sufficient amounts of natural electron donors to drive anaerobic natural attenuation, injection of microbial substrates has proven to be a cost-effective treatment or plume migration control measure. The microbial substrates can be injected into the contaminant source area where residual contamination is adsorbed onto soils or injected in a line across a ground water contaminant plume to form a permeable reactive wall to prevent further contaminant migration.

A wide variety of sugars, alcohols, organic acids, and even molecular hydrogen have been used successfully as electron donors to enhance anaerobic biotransformation processes. Most of these compounds are rapidly consumed after injection and must be replaced by either continuous low concentration delivery systems or with frequent batch additions of additive solution. Contaminant source areas can not be effectively removed or even precisely located for many ground water contaminant plumes. The presence of residual chlorinated solvents adsorbed onto soils or present as dense non-aqueous phase product (DNAPL) serves as an example of persistent ground water plume source areas that can last for many decades. These persistent contaminant source areas continue to contaminate ground water for many years such that continuous operation of recirculation systems or frequent substrate injections can be very costly over the life of a project. Long-term injection of substrates into wells or infiltration galleries often leads to severe bacterial fouling problems adding to project operation and maintenance costs.

Recent interest has developed in the use of materials that slowly biodegrade or slowly release organic matter into ground water over time. A variety of vegetable oils have been demonstrated to be effective electron donors to stimulate anaerobic biodegradation. Although edible oils such as soybean oil have a much lower viscosity than a semisolid product, distribution in saturated soils is difficult. Soybean oil has a viscosity approximately 80 times higher than water, which results in multiphase fluid flow and potential oil blockage of soil porosity.  Injection of pure oil or large droplets of emulsified oil blocks soil pores producing treatment zones that are ineffective because they prevent free flow of ground water through the oil treated area. Injection of pure soybean oil into porous soil media has been shown to reduce water permeability by up to 100%.

In addition to slowly biodegradable hydrogen sources, soil and groundwater remediation process that utilize zero-valent metals have been applied with varying success.  In the second embodiment of the invention the addition of zero-valent metals to the micro-blue green algae allows for maintained reducing conditions resulting in greater longevity of the reactive metal surface. Zero-valent metal particles have been proven to effectively degrade halogenated solvents. For example, the mechanism and reaction rates of which iron reduces chlorinated aliphatics has been studied extensively due to iron's low cost and low toxicity.

Additionally, the pathways of the dehalogenation of DNAPL's such as TCE have been proposed. TCE undergoes hydrogenolysis where the replacement of each of the three chlorines occurs sequentially. TCE reduces to cis-1,2-dichloroethene, trans-1,2-dichloroethene, and 1,1-dichloroethene. These intermediates in turn reduce to ethene and ethane.

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Innovative Environmental Technologies, Inc. (IET) is an environmental contractor and technology vendor that provides a wide variety of remedial services throughout North America.
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Tags:Groundwater, Remediation, Pce, Tce, Tca, ct, Chlorinated Solvent, In-situ, Injection, Soil
Industry:Environment, Science, Engineering
Location:Philadelphia - Pennsylvania - United States
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Page Updated Last on: Dec 23, 2010
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