Jesse Hampton scite author profile

Jesse Hampton

3Publications

79Citation Statements Received

44Citation Statements Given

How they've been cited

133

How they cite others

Affiliations

University of Wisconsin–Madison, Colorado School of Mines, Halliburton (United Kingdom)

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Electric potential source localization reveals a borehole leak during hydraulic fracturing

et al. 2013

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A laboratory experiment was performed to see if passively recorded electric signals can be inverted to retrieve the position of fluid leakages along a well during an attempt to hydraulically fracture a porous block in the laboratory. The cubic block was instrumented with 32 nonpolarizing sintered Ag/AgCl electrodes. During the test, several events were detected corresponding to fluid leakoff along the seal of the well. Each event showed a quick burst in the electric field followed by an exponentialtype relaxation of the potential distribution over time. The occurrence of these "electric" events was always correlated with a burst in the acoustic emissions and a change in the fluid pressure. These self-potential data were inverted in two steps: (1) using a deterministic least-square algorithm with focusing to retrieve the position of the source current density in the block for a given snapshot in the electric potential distribution and (2) using a genetic algorithm to refine the position of the source current density on a denser grid. The results of the inversion were found to be in excellent agreement with the position of the well where the hydraulic test was performed and with the localization of the acoustic emissions in the vicinity of this well. This experiment indicates that passively recorded electric signals can be used to monitor fluid flow along the well during leakages, and perhaps monitor fluid flow for numerous applications involving hydromechanical disturbances.

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Microcrack Damage Observations near Coalesced Fractures Using Acoustic Emission

2019

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Acoustic emission characterization of microcracking in laboratory-scale hydraulic fracturing tests

Hampton

Gutierrez

Matzar

et al. 2018

Journal of Rock Mechanics and Geotechnical Engineering

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Jesse Hampton

Electric potential source localization reveals a borehole leak during hydraulic fracturing

Microcrack Damage Observations near Coalesced Fractures Using Acoustic Emission

Acoustic emission characterization of microcracking in laboratory-scale hydraulic fracturing tests

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