Technical Lead – DNAPL Megasite
Served as the Technical Lead for numerous and large site investigation and remediation projects at
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Explore My Experience
Unique Analytical Methods
Multiparty Contaminant Source Identification & Expert Rebuttal – Fractured Rock Aquifer
Investigation design and analysis of hydrogeologic data at complex fractured bedrock site enabled identification of
Groundwater Plume Modeling for Remedial Design
Simulated chemical retardation and biodegradation of benzene and MTBE plume using MODFLOW, MODPATH, and MT3D.
Aquitard Matrix Diffusion Modeling
Identified lines of evidence regarding whether a deep aquifer is impacted by a shallow, contaminated
Fractured Bedrock Aquifer Research Site
This project included testing and development of traditional and new tools to characterize groundwater flow
3D Geologic Visualization for Fractured Rock Aquifer Characterization
Used Advanced Visual Systems (AVS) software [not to be confused with EVS] to create a
Groundwater Flow Modeling for a Proposed Nuclear Waste Repository
Used the computer code TOUGH2 (Berkeley National Lab) to construct a 3-D groundwater model of
Soil and Sediment Assessment Calculator
Developed SPARGS (Stochastic Partitioning Groundwater-Surface water calculator), used to quantify groundwater plume discharge and subsequent
Contaminated Sediment Investigation, Modeling, and Remediation
Investigation, design, Conceptual Site Model development, and remedial selection for sediment contaminated with VOCs and
DNAPL Assessment Toolbox
Developed Excel-based VBA program used to assess if NAPL is present in the subsurface based
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With decades of experience in groundwater science, I’m here to provide sustainable, practical solutions tailored to your needs. Whether you need consulting, research, or education, I can help you make informed decisions for the future of your groundwater resources.