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Biot-Pride Electrokinetic Wave Propagation in Porous Rocks

Smeulders, D. / Schakel, M.

We designed and developed an experimental setup in which acoustic to electromagnetic (EM) wave conversions at interfaces can be measured. Experimental results are compared with a full-waveform theoretical model based on the Sommerfeld approach. After amplitude scaling, the measured spatial distribution of the electric wave field is in excellent agreement with the theoretical prediction. A strong dependency of the reflected electric signal on the sample thickness was recorded. This dependency is not present in the acoustic signal.

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Biot-Pride Electrokinetic Wave Propagation in Porous Rocks

Smeulders, D. / Schakel, M.

We designed and developed an experimental setup in which acoustic to electromagnetic (EM) wave conversions at interfaces can be measured. Experimental results are compared with a full-waveform theoretical model based on the Sommerfeld approach. After amplitude scaling, the measured spatial distribution of the electric wave field is in excellent agreement with the theoretical prediction. A strong dependency of the reflected electric signal on the sample thickness was recorded. This dependency is not present in the acoustic signal.

Biot-Pride Electrokinetic Wave Propagation in Porous Rocks

Smeulders, D. / Schakel, M.

We designed and developed an experimental setup in which acoustic to electromagnetic (EM) wave conversions at interfaces can be measured. Experimental results are compared with a full-waveform theoretical model based on the Sommerfeld approach. After amplitude scaling, the measured spatial distribution of the electric wave field is in excellent agreement with the theoretical prediction. A strong dependency of the reflected electric signal on the sample thickness was recorded. This dependency is not present in the acoustic signal.

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Title:

Biot-Pride Electrokinetic Wave Propagation in Porous Rocks

Contributors:

Smeulders, D. (author) / Schakel, M. (author)

Conference:

Fifth Biot Conference on Poromechanics ; 2013 ; Vienna, Austria

Published in:

Poromechanics V ; 292-298

Publication date:

2013-06-18

ISBN:

DOI:

https://doi.org/10.1061/9780784412992.034

Type of media:

Conference paper

Type of material:

Electronic Resource

Language:

English

Keywords:

Wave propagation , Poroelasticity , Electrokinetics , Rocks , Mechanics , Simulation , Porous media , Porosity

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