Dense Medium Plasma Remediation of VOCs in Groundwater

Award Information
Agency:
Department of Health and Human Services
Branch
n/a
Amount:
$93,438.00
Award Year:
2007
Program:
STTR
Phase:
Phase I
Contract:
1R41ES015000-01
Agency Tracking Number:
ES015000
Solicitation Year:
2007
Solicitation Topic Code:
n/a
Solicitation Number:
n/a
Small Business Information
ORBITAL TECHNOLOGIES CORPORATION
ORBITAL TECHNOLOGIES CORPORATION, 1212 FOURIER DR, MADISON, WI, 53717
Hubzone Owned:
N
Socially and Economically Disadvantaged:
Y
Woman Owned:
Y
Duns:
196894869
Principal Investigator:
YONGHUI MA
(608) 229-2805
may@orbitec.com
Business Contact:
THOMAS CRABB
(608) 827-5000
johnsond@orbitec.com
Research Institution:
UNIVERSITY OF WISCONSIN-MADISO

UNIVERSITY OF WISCONSIN MADISON
Suite 6401
MADISON, WI, 53715-1218

Nonprofit college or university
Abstract
DESCRIPTION (provided by applicant): Groundwater is one of the most important freshwater resources on this planet. However, contaminated groundwater has become an ever-increasing problem in the United State. Among the many types of contaminants, Volatile Organic Chemicals (VOCs) are a major concern and a potential human health threat for those who use groundwater for the supply of drinking water. Pump-and-treat technology is one of the most widely used groundwater remediation approaches, and can be effective when combined with other remediation methods, including Advanced Oxidation Technologies (AOTs). The Dense Medium Plasma (DMP) technology is a highly efficient AOT for treatment of VOCs in extracted groundwater. Compared to other existing AOTs that are often used to destroy saturated hydrocarbons in pump-and-treat groundwater remediation applications, the DMP technology requires less energy input, produces superior remediation performance, can operate in continuous mode for high throughput, and can be scaled up for industrial use. The DMP reactor initiates, sustains, and disperses electrical discharges through water at atmospheric pressure and ambient temperature. High energies generated by the submerged micro- discharges produce a variety of reactive species including ozone (O3), hydrogen peroxide (H2O2), and free radicals (e.g. H? and OH?), which can interact with VOCs in groundwater and convert them into CO2, H2O, and other less harmful hydrocarbons through oxidation, fragmentation, and recombination. Preliminary tests have been performed on the DMP reactor to decontaminate and disinfect water samples that were artificially contaminated with four VOCs or infected with 16 selected bacteria. Data obtained from the preliminary tests demonstrated that the DMP reactor, prior to any optimization, was able to reduce VOC concentrations of benzene, toluene, ethyl benzene, and xylene (all) below the detectable range (from ppm to ppb) and bacteria contamination levels by up to 99.9% . In this proposed effort, a prototype DMP reactor will be built and modified to meet the requirements typically found in groundwater remediation applications. Effectiveness of the technology against particular VOCs, including 1, 4-dioxane, TCE, MTBE, and per chlorate, will be evaluated. Treatment parameters will be optimized to achieve the best remediation performance. Byproducts will be identified and studied to evaluate the DMPs environmental impact and secondary treatment approaches will be suggested if necessary. The final product to be developed through this proposed research study is a commercial device that can be used either alone (single unit or an array) or in combination with other existing technologies to destroy VOCs and other similar chemical contaminants in extracted groundwater. As 75% of public water systems in the United States rely on groundwater, water contamination, especially by Volatile Organic Chemicals (VOCs), has become an increasingly serious threat to the public health. The proposed work provides a more efficient and effective alternative to existing technologies for treatment of VOCs in groundwater, helping to reduce the burden of human illness and dysfunction from environmental causes.

* information listed above is at the time of submission.

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