113-1Using Synchrotron-Based Microtomography and Functional Contrast Agents In Environmental Applications.
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S01 Soil Physics
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Symposium--Tomography and Imaging for Soil-Water-Root Processes: I
Monday, October 22, 2012: 8:05 AM
Duke Energy Convention Center, Room 232, Level 2
Dorthe Wildenschild1, Mark L. Rivers2, Mark L. Porter3, Gabriel Iltis1, Ryan Armstrong1 and Yohan Davit4, (1)School of Chemical, Biological, and Environmental Engineering, Oregon State University, Corvallis, OR
(2)Department of Geophysical Sciences and Center for Advanced Radiation Sources, University of Chicago, Argonne, IL
(3)Earth and Environmental Sciences Division, Los Alamos National Laboratory, Los Alamos, NM
(4)Mathematical Institute, University of Oxford, Oxford, United Kingdom
Despite very rapid development in commercial x-ray tomography technology, synchrotron-based tomography facilities still have a number of advantages over conventional systems. The high photon flux inherent of synchrotron radiation sources allows for (1) high resolution to micro- or nanometer scales depending on the individual beam-line, (2) rapid acquisition times that allow for collection of sufficient data for statistically significant results in a short amount of time, as well as prevention of temporal changes that would take place during longer scan times, and (3) optimal implementation of contrast agents that allow us to resolve features that would not be decipherable in scans obtained with a polychromatic radiation source.
This presentation will highlight recent advances in capabilities at synchrotron sources, as well as implementation of synchrotron-based computed microtomography (CMT) to two topics of interest to researchers in the soil science, hydrology, and environmental engineering fields, namely multi-phase flow in porous media, and characterization of biofilm architecture in porous media. In both examples, we make use of contrast agents and photoelectric edge-specific scanning (single or dual-energy type), in combination with advanced image processing techniques.
See more from this Division:
S01 Soil Physics
See more from this Session:
Symposium--Tomography and Imaging for Soil-Water-Root Processes: I