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Potential created by a current source in soil
Posted 19.04.2017, 10:29 GMT-4 1 Reply
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Hello,
I want to model the electric potential distribution in the soil created by a surfacic current density source (disk).
I have created a hemisphere to represent the soil (4km radius) and added a constant resistivity.
I put at the top centre of the hemisphere a current density source with a disk.
Finally for the boundary conditions I put the ground condition on the external face to represent the zero potential at infinity (4km here) and the insulation condition at the air/soil interface.
I tried to compare the results from Comsol with the analytical expression V(r)=(rho*I)/(2*pi*r) where r is the distance from the current source but the error is below 1% only for a distance from 0.06 meters to 20 meters from the source and the rest is not good.
I do not know how to deal with the ground condition at infinity and if the insulation boundary condition is correct (might be dV(x,y,0)/dz=0).
You can find attached a picture of the geometry.
Thank you!
I want to model the electric potential distribution in the soil created by a surfacic current density source (disk).
I have created a hemisphere to represent the soil (4km radius) and added a constant resistivity.
I put at the top centre of the hemisphere a current density source with a disk.
Finally for the boundary conditions I put the ground condition on the external face to represent the zero potential at infinity (4km here) and the insulation condition at the air/soil interface.
I tried to compare the results from Comsol with the analytical expression V(r)=(rho*I)/(2*pi*r) where r is the distance from the current source but the error is below 1% only for a distance from 0.06 meters to 20 meters from the source and the rest is not good.
I do not know how to deal with the ground condition at infinity and if the insulation boundary condition is correct (might be dV(x,y,0)/dz=0).
You can find attached a picture of the geometry.
Thank you!
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