New technology to improve the understanding of contaminant migration in fractured geological settings

Tian-Chyi Jim Yeh; Walter A Illman; Anton Kruger; Edward Sudicky; Jeff Daniels

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$New technology to improve the understanding of contaminant migration in fractured geological settings$

Abstract

New technology to improve the understanding of contaminant migration in fractured geological settings

Tian-Chyi Jim Yeh, Walter A Illman, Anton Kruger, Edward Sudicky and Jeff Daniels

Abstracts with programs - Geological Society of America, Vol.38(7), p.462

Geological Society of America, 2006 annual meeting

10/2006

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Abstract

Many military installations and industrial complexes are contaminated with chemicals such as chlorinated solvents, perchlorate, and munitions constituents. Several technologies have been applied to remediate fractured rock sites. It has proven to be extremely difficult to flush contaminants out or to install effective barriers to prevent contaminant migration. Failures of these attempts are largely due to our inability to determine fracture locations, as well as their connectivity in space, hydraulic and transport characteristics of the fractures and the rock matrix, and most importantly the whereabouts of contaminants in these fractured geologic settings. As a consequence, it is critical to develop effective technologies to characterize fracture patterns and their connectivity, hydraulic properties of fractures and the rock matrix, as well as to understand the mass transfer mechanism, and to monitor the effectiveness of remediation technologies in fractured terrains. In this study, we demonstrate that the widely adopted mass transfer concept is merely a consequence of our inability to characterize fractures and matrix heterogeneity at a variety of scales. While this concept is practical, when applied to remediate a field site, it fails to produce the level of resolution required. We therefore propose a new technology that permits high-resolution "imaging" of fractured rocks and contaminant distribution. The new technology is based on the stochastic fusion of geophysical electromagnetic tomography and recently developed hydraulic/tracer tomography. The development of this information fusion technology is on-going for imaging the heterogeneity distribution of flow/transport parameters and DNAPL distributions in contaminant source zones situated in porous media. Preliminary results are very promising. Abstract 112230 modified by 150.135.172.159 on 7-10-2006

Mass Transfer

Technology

Water Pollution

Environmental geology

fractured materials

ground water

heterogeneity

military facilities

pollutants

pollution

porous materials

properties

solvents

tomography

tracers

transport

Details

Title: Subtitle: New technology to improve the understanding of contaminant migration in fractured geological settings
Creators: Tian-Chyi Jim Yeh - University of Arizona
Walter A Illman
Anton Kruger
Edward Sudicky
Jeff Daniels
Resource Type: Abstract
Publication Details: Abstracts with programs - Geological Society of America, Vol.38(7), p.462
Conference: Geological Society of America, 2006 annual meeting
Publisher: Geological Society of America (GSA)
ISSN: 0016-7592
Language: English
Date published: 10/2006
Academic Unit: Electrical and Computer Engineering; Civil and Environmental Engineering
Record Identifier: 9984198013102771

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