Simulation Of An Acoustically Induced Electromagnetic Field In A Borehole Embedded In A Porous Formation
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Massachusetts Institute of Technology. Earth Resources Laboratory
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When an acoustic point source located on the borehole axis emits an acoustic wave, an
electric field, as well as an acoustic field, is generated in the porous formation around
the borehole due to an electrokinetic effect. The coupled acoustic and electromagnetic
wavefields were formulated by applying Pride's (1994) governing equations and boundary
conditions at the borehole wall. Numerical examples show that two kinds of electric
fields can be received on the borehole axis. The propagating electromagnetic wave arrives
at different receivers almost simultaneously, and appears as the first wave packet in
the full electric field waveform. Another kind of electric field accompanies the acoustic
pressures, and consists of the same component waves as that of the acoustic waveforms.
On the borehole axis, the coupled electric field vector is in the axial direction on
the borehole axis. A study of the ratio of the magnitude of electric field strength to the magnitude of pressure, or REP, shows that the compressional wave has the largest REP
value, the Stoneley wave the next, and the shear wave the smallest. The peak value of
the electric field strength at 1 kHz is about 100 times larger than that at 10 kHz, while
the REP at 1 kHz is about five times larger than REP at 10 kHz. Off the borehole
axis, the electric field has a radial and axial component, and one Can also receive a
circumferential magnetic field. When the interdependence between porosity, tortuosity
and permeability is ignored, the REP increases rapidly with porosity, decreases with
tortuosity, and changes little with permeability. The electric field strength decreases
with borehole fluid salinity and formation water salinity.
Date issued
2000Publisher
Massachusetts Institute of Technology. Earth Resources Laboratory
Series/Report no.
Earth Resources Laboratory Industry Consortia Annual Report;2000-13