IMPROVING THE TREATMENT OF CONTAMINATED AQUIFERS BYDEVELOPING DIRECT-PUSH OXIDAN

Award Information
Agency:
Department of Health and Human Services
Branch
n/a
Amount:
$106,840.00
Award Year:
2013
Program:
STTR
Phase:
Phase I
Contract:
1R41ES022530-01A1
Award Id:
n/a
Agency Tracking Number:
R41ES022530
Solicitation Year:
2013
Solicitation Topic Code:
NIEHS
Solicitation Number:
PA12-089
Small Business Information
1421 SW 36TH ST, LINCOLN, NE, 68522-9136
Hubzone Owned:
N
Minority Owned:
N
Woman Owned:
N
Duns:
78421586
Principal Investigator:
MARK CHRISTENSON
(402) 617-0434
mark@airliftenvironmental.com
Business Contact:
MARK CHRISTENSON
(402) 617-0434
mark@airliftenvironmental.com
Research Institute:
UNIVERSITY OF NEBRASKA

UNIVERSITY OF NEBRASKA MEDICAL CENTER
987835 NEBRASKA MEDICAL CENTER
OMAHA, NE, 68198-7835
() -
Nonprofit college or university
Abstract
DESCRIPTION: Water quality is one of the biggest issues related to public health in the United States. Few situations incite more public outcry than when a community learns that their drinking water has been tainted. Two of the biggest threats to groundwater quality in the U.S. are contamination from either chlorinated solvents or petroleum. Currently, there are an estimated 20,000 sites in the U.S. contaminated with chlorinated solvents. Many of these sites are remnants of releases that occurred 20 to 30years ago. Left unattended, the size and scope of the problems associated with these spills have only become exacerbated with time. Likewise, leaking underground storage tanks (UST) containing petroleum are one of the leading causes of groundwater contamination in the United States. Of the 590,000 federally-regulated UST currently in the U.S., approximately 6,000 had confirmed releases in 2011. In the past decade, significant efforts have been devoted to developing innovative remedial technologies to combatthese environmental contaminants. One technology that is relatively mature is the injection of liquid oxidants into contaminated aquifers or in situ chemical oxidation (ISCO). Two roadblocks to successfully implementing ISCO treatments are when contaminants are located in low permeable layers and these finer textured zones do not readily accept liquid injections or when the aquifer is porous enough for liquid injections, but the cohesive properties of the chemical oxidant results in density-driven flow, thereby causing the oxidant to sink and not treat the desired target zone. To address both problems, AirLift Environmental and the University of Nebraska developed slow- release oxidant-paraffin candles, that when inserted into low permeable zones, slowly dissolve and intercept the contaminant. To prevent the oxidant from migrating downward from the candles, pneumatic circulators were developed that aerate or release bubbles at the base of the candle and prevent the oxidant from sinking while greatly facilitating its horizontal distribution. The objective of this research is to design and manufactue slow-release oxidant candles with aerators tips that can be inserted into contaminated aquifers by direct push (i.e., no wells needed). This development will makeit easier and less expensive to install slow-release oxidants and greatly increase its commercial appeal. Proposed research will take place in two stages where prototypes of direct-push candles we be tested in a large groundwater flow model. Direct-push candles with circulators showing the most promise will be scaled up and field tested by quantifying the ability of the oxidant candle system to vertically deliver oxidants evenly to 22-ft. monitoring wells in the field. Chlorinated solvents and petroleum products are clearly among the top groundwater contaminants worldwide. The proposed innovation is specifically designed to provide a cost-effective and efficient technology to combat public water supplies impacted by these contaminants. PUBLIC HEALTH RELEVANCE PUBLIC HEALTH RELEVANCE: Chlorinated solvents and petroleum products represent two of the major groundwater contaminants observed worldwide. These contaminants can be successfully treated with chemical oxidants but delivering the oxidants towhere the contaminants are located is often the biggest challenge, especially when contaminants are located in low permeable aquifers. This research will develop a slow-release oxidant delivery system with pneumatic circulators that are easy to install and more effective in delivering the oxidant to targeted zones.

* information listed above is at the time of submission.

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