Elongated cross coil assembly for use in borehole location determination
First Claim
1. Apparatus for guiding the drilling of a borehole in the earth in spaced relationship to a guide borehole in the earth, comprising:
- a coil assembly located in the guide borehole, said assembly incorporating an elongated core having a longitudinal axis extending along the guide borehole;
first and second crossed coil windings wrapped longitudinally around said core;
an alternating current source connected to each of said first and second windings to produce alternating current flow in each coil to generate an elliptical, rotating magnetic field at a point in the vicinity of the guide borehole;
sensors in said borehole being drilled for detecting at said point vectors of gravity and vectors of the generated elliptical electromagnetic field; and
a controller responsive to the generated magnetic field and to the detected vectors of the elliptical magnetic field to determine from the field ellipticity the location of the sensors with respect to said first and second crossed coil windings.
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Accused Products
Abstract
An apparatus and method for measuring the location of one borehole relative to another includes a pair of elongated crossed coils deployed in the first borehole and an instrument containing magnetic field sensors deployed in the second borehole. The crossed coils are energized in quadrature by AC currents producing a rotating, elliptically polarized magnetic field at the second borehole. Mathematical analysis of the magnetic field sensor readings determines the location of the second borehole relative to the first. Both the distance and the rotational direction to the second borehole are determined as a function of depth of the sensors relative to that of the pair of crossed coils. No knowledge or measurement of the rotational orientation of the crossed coil in the first borehole is needed. Any twisting of the long coil in the borehole can be evaluated by noting the relative phase of the received elliptically polarized field as the depth of measurement is varied, and the relative distance between the boreholes and the corrections needed due to such twisting are determined.
40 Citations
17 Claims
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1. Apparatus for guiding the drilling of a borehole in the earth in spaced relationship to a guide borehole in the earth, comprising:
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a coil assembly located in the guide borehole, said assembly incorporating an elongated core having a longitudinal axis extending along the guide borehole; first and second crossed coil windings wrapped longitudinally around said core; an alternating current source connected to each of said first and second windings to produce alternating current flow in each coil to generate an elliptical, rotating magnetic field at a point in the vicinity of the guide borehole; sensors in said borehole being drilled for detecting at said point vectors of gravity and vectors of the generated elliptical electromagnetic field; and a controller responsive to the generated magnetic field and to the detected vectors of the elliptical magnetic field to determine from the field ellipticity the location of the sensors with respect to said first and second crossed coil windings. - View Dependent Claims (2, 6, 7, 8, 9, 10, 11)
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4. The apparatus of claim 3, wherein said alternating current source supplies current to said first and second coils in time quadrature.
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5. The apparatus of claim 3, wherein the fundamental components of the current in one of said coils vary as a sine function and the fundamental components of the current in the other of said coils vary as a cosine function.
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12. A method for locating a first borehole in the earth with respect to a guide borehole in the earth, comprising:
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positioning a coil assembly at a known location in the guide borehole, said assembly incorporating an elongated core having a longitudinal axis extending along the guide borehole and having first and second crossed coil windings wrapped longitudinally around said core; supplying an alternating current to each of said first and second windings to produce alternating current flow in each coil to generate an elliptical, rotating magnetic field at a point in the vicinity of the guide borehole; detecting in said first borehole vectors of gravity and vectors of the generated electromagnetic field; and determining the location of the sensors in the first borehole with respect to the location of the coil assembly in the guide borehole in response to the generated magnetic field and the measured magnetic field vectors. - View Dependent Claims (13, 14, 15, 16)
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17. A method for surveying a borehole in the earth in spaced relationship to a guide location, comprising:
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locating a guide coil assembly at a known location, said guide assembly incorporating an elongated core having a longitudinal axis and having first and second crossed coil windings wrapped longitudinally around said core; supplying an alternating current to each of said first and second windings to produce alternating current flow in each coil to generate an elliptical magnetic field in the region of a borehole to be drilled; detecting at sensors located in said borehole vectors of gravity and vectors of the generated electromagnetic field; and determining the distance and direction of said guide assembly from said sensors in response to the detected vectors of the generated magnetic field and the detected gravity vectors.
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Specification
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- Resources
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Current AssigneeHalliburton Energy Services Incorporated (Halliburton Company)
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Original AssigneeVector Magnetics, LLC
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InventorsKuckes, Arthur F., Susmann, Herbert J.
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current175/24
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CPC Class CodesE21B 47/0228 using electromagnetic energ...
