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Houston Geological Society Bulletin

Abstract


Houston Geological Society Bulletin, Volume 49, No. 3, November 2006. Pages 17-17.

Abstract: Mapping Aquifer Sensitivity by Combining 3-D Geologic Analysis and Groundwater Hydrology — An Application of GIS for Preemptive Protection of Groundwater Underlying Oil Production and Processing Facilities

By

Jim Rine
OMNI Laboratories, Inc.
Houston, TX

If groundwater resources underlying areas of petroleum production and processing are “preemptively“ protected, the high costs of remediation could be avoided or significantly reduced. This talk describes two case studies that tested aquifer sensitivity maps produced by combining stack-unit geologic mapping with groundwater hydrology. These maps can be used to locate hazardous facilities in less vulnerable areas or help direct assessment and remediation efforts in the event of a spill. One case study compared aquifer sensitivity maps with documented plumes of the contaminant tetrachloroethylene (PCE) found at the Department of Energy’s (DOE’s) Savannah River (SRS) site, SC. In this study, deconstruction of the sensitivity map combined with the groundwater hydrology explain the placement and geometries of the PCE plumes as they progress from the ground surface through multiple aquifers and confining units of the study area at SRS. In the second study at the Marine Corps Air Station (MCAS) in Beaufort, SC, the analysis determined aquifer sensitivity throughout the 22 km2 airbase using a GIS-based stack-unit mapping methodology that integrated historic hydrogeology data, new high-resolution reflection seismic profiles, core analysis from over 40 boreholes and wells, and hydrologic models based on multi-seasonal water level monitoring. The resulting combined hydrologic and geologic models show that within the study area at MCAS, including areas overlying low permeability strata, contaminants released on the ground surface could reach critical underlying aquifers within tens of years due to rapid groundwater flow. These studies demonstrate that both geologic mapping and groundwater modeling are necessary to accurately delineate areas of high and low aquifer sensitivity. The studies also demonstrate an effective tool for avoiding costly groundwater contamination and cleanup.

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