Add to ORKGField experiments were conducted to determine the location and distribution of subsurface DNAPL contamination at two DOE sites by use of two-dimensional, high-resolution seismic reflection surveys and borehole geophysical data. These studies make use of seismic reflection amplitude versus offset (AVO) technology to directly detect the presence of subsurface free-phase DNAPL. The research was conducted at Savannah River Site, SC and Hanford Site, WA. At each of these sites research consisted of site evaluation, seismic model studies, seismic acquisition, processing, and interpretation. The seismic model studies were undertaken prior to field acquisition to determine the likelihood of an AVO response from the DNAPL. The full Zoeppritz equatio...
The overall goal of the project is to explore the use of an innovative in-situ method (partitioning ...
We use a marine seismic dataset to examine the reflections from two gas sands, a lignitic sand and a...
The focus of our work is direct detection of DNAPLs, specifically chlorinated solvents, via material...
The Earth Sciences and Resources Institute, University of South Carolina is conducting a proof of co...
The Earth Sciences and Resources Institute, University of South Carolina is conducting a 14 month pr...
Characterization of contamination in the subsurface is expensive, difficult, and often unreliable. C...
Thesis (S.M. in Geosystems)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and...
Nonlinear complex-resistivity (NLCR) cross-hole imaging of the vadose zone was performed at the A-01...
A 3-D seismic reflection survey was conducted at a groundwater contamination site to adequately imag...
Large quantities of non-aqueous phase liquids (NAPL), contaminate the near surface sediments at Oper...
A simple mathematical model of a sandstone aquifer has been constructed based on a local example, th...
LIBRARIES Spectral induced polarization measurements were acquired in six cross-borehole panels with...
Residual dense non-aqueous phase liquid (DNAPL) contamination continues to be one of the most challe...
One of the major problems associated with ground water contaminant remediation is well placement. Op...
Quantifying the volume of dense, non-aqueous phase liquids (DNAPL) in the subsurface is difficult. T...
The overall goal of the project is to explore the use of an innovative in-situ method (partitioning ...
We use a marine seismic dataset to examine the reflections from two gas sands, a lignitic sand and a...
The focus of our work is direct detection of DNAPLs, specifically chlorinated solvents, via material...
The Earth Sciences and Resources Institute, University of South Carolina is conducting a proof of co...
The Earth Sciences and Resources Institute, University of South Carolina is conducting a 14 month pr...
Characterization of contamination in the subsurface is expensive, difficult, and often unreliable. C...
Thesis (S.M. in Geosystems)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and...
Nonlinear complex-resistivity (NLCR) cross-hole imaging of the vadose zone was performed at the A-01...
A 3-D seismic reflection survey was conducted at a groundwater contamination site to adequately imag...
Large quantities of non-aqueous phase liquids (NAPL), contaminate the near surface sediments at Oper...
A simple mathematical model of a sandstone aquifer has been constructed based on a local example, th...
LIBRARIES Spectral induced polarization measurements were acquired in six cross-borehole panels with...
Residual dense non-aqueous phase liquid (DNAPL) contamination continues to be one of the most challe...
One of the major problems associated with ground water contaminant remediation is well placement. Op...
Quantifying the volume of dense, non-aqueous phase liquids (DNAPL) in the subsurface is difficult. T...
The overall goal of the project is to explore the use of an innovative in-situ method (partitioning ...
We use a marine seismic dataset to examine the reflections from two gas sands, a lignitic sand and a...
The focus of our work is direct detection of DNAPLs, specifically chlorinated solvents, via material...