Laboratory scale tests of electrical impedence tomography

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Electrical impedance tomographs (magnitude and phase) of known, laboratory-scale targets are reported. Three methods are used to invert electrical impedance data and their tomographs compared. The first method uses an electrical resistance tomography (ERT) algonthm (designed for DC resistivity inversion) to perform impedance magnitude inversion and a linearized perturbation approach (PA) to invert the imaginary part. The second approximate method compares ERT magnitude inversions at two frequencies and uses the frequency effect (FE) to compute phase tomographs. The third approach, electrrcal impedance tomography (EIT), employs fully complex algebra to account for the real and imaginary components of electrical impedance data. ... continued below

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Binley, A; Daily, W; LaBredcque, D & Ramirez, A December 1, 1998.

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Electrical impedance tomographs (magnitude and phase) of known, laboratory-scale targets are reported. Three methods are used to invert electrical impedance data and their tomographs compared. The first method uses an electrical resistance tomography (ERT) algonthm (designed for DC resistivity inversion) to perform impedance magnitude inversion and a linearized perturbation approach (PA) to invert the imaginary part. The second approximate method compares ERT magnitude inversions at two frequencies and uses the frequency effect (FE) to compute phase tomographs. The third approach, electrrcal impedance tomography (EIT), employs fully complex algebra to account for the real and imaginary components of electrical impedance data. The EIT approach provided useful magnitude and phase images for the frequency range of 0.0625 to 64 Hz; images for higher frequencies were not reliable. Comparisons of the � ERT and EIT magnitude images show that both methods provided equivalent results for the water blank, copper rod and PVC rod targets. The EIT magnitude images showed better spatial resolutron for a sand-lead mixture target. Phase images located anomalies of both high and low contrast IP and provided better spatial resolution than the magnitude images. When IP was absent from the data, the EIT algorithm reconstructed phase values consistent with the data noise levels.

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1.9 Megabytes

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  • SAGEEP'99, Symposium on the Application of Geophysics to Engineering and Environmental Problems, Oakland, CA, March 14-18, 1999

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  • Other: DE00007784
  • Report No.: UCRL-JC-132657
  • Grant Number: W-7405-Eng-48
  • Office of Scientific & Technical Information Report Number: 7784
  • Archival Resource Key: ark:/67531/metadc719707

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  • December 1, 1998

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  • Sept. 29, 2015, 5:31 a.m.

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  • Feb. 24, 2016, 12:18 p.m.

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Binley, A; Daily, W; LaBredcque, D & Ramirez, A. Laboratory scale tests of electrical impedence tomography, article, December 1, 1998; Livermore, California. (digital.library.unt.edu/ark:/67531/metadc719707/: accessed December 18, 2017), University of North Texas Libraries, Digital Library, digital.library.unt.edu; crediting UNT Libraries Government Documents Department.