Closed loop well twinning methods
First Claim
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1. A closed loop method for drilling a twin well along a predetermined path with respect to a target well, the target well being cased with a metallic liner, the method comprising:
- (a) rotary drilling the twin well using a drill string comprising a drill bit, a rotary steerable tool, a controller disposed in the drill string and a magnetic field sensor wherein the rotary steerable tool comprises a substantially non-rotating outer blade housing having a rotating shaft deployed in the outer blade housing and a plurality of blades that engage a borehole, and the magnetic field sensor is deployed in the outer blade housing and is stationary or rotates relatively slowly with respect to the borehole while advancing into the borehole and the plurality of blades continually adjusted during drilling;
(b) inducing an electrical current in the target well, said induced electrical current resulting in a magnetic field about the target well;
(c) measuring the magnetic field substantially continuously while drilling at multiple tool face angles;
(d) processing the plurality of magnetic field measurements made in (c) in the controller to obtain a displacement vector;
processing the displacement vector to obtain a steering vector;
processing the steering vector to obtain new rotary steerable tool settings; and
(e) adjusting the drilling direction o using the new steering tool settings without stopping the rotary drilling or removing the drill string.
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Abstract
Closed loop methods for drilling twin wells are disclosed. The disclosed method make use of a bottom hole assembly including a rotary steerable tool. An electrical current is induced in the target well. The corresponding magnetic field about the target well is measured in the twin well and used to guide drilling of the twin well.
57 Citations
18 Claims
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1. A closed loop method for drilling a twin well along a predetermined path with respect to a target well, the target well being cased with a metallic liner, the method comprising:
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(a) rotary drilling the twin well using a drill string comprising a drill bit, a rotary steerable tool, a controller disposed in the drill string and a magnetic field sensor wherein the rotary steerable tool comprises a substantially non-rotating outer blade housing having a rotating shaft deployed in the outer blade housing and a plurality of blades that engage a borehole, and the magnetic field sensor is deployed in the outer blade housing and is stationary or rotates relatively slowly with respect to the borehole while advancing into the borehole and the plurality of blades continually adjusted during drilling; (b) inducing an electrical current in the target well, said induced electrical current resulting in a magnetic field about the target well; (c) measuring the magnetic field substantially continuously while drilling at multiple tool face angles; (d) processing the plurality of magnetic field measurements made in (c) in the controller to obtain a displacement vector;
processing the displacement vector to obtain a steering vector;
processing the steering vector to obtain new rotary steerable tool settings; and(e) adjusting the drilling direction o using the new steering tool settings without stopping the rotary drilling or removing the drill string. - View Dependent Claims (2, 3, 4)
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5. A closed loop method for drilling a twin well along a predetermined path with respect to a target well, the target well being cased with a metallic liner, the method comprising:
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rotary drilling the twin well using a drill string comprising a drill bit, a rotary steerable tool, a controller disposed in the drill string and a magnetic field sensor wherein the rotary steerable tool comprises a substantially non-rotating outer blade housing having a rotating shaft deployed in the outer blade housing and a plurality of blades that engage a borehole, and the magnetic field sensor is deployed in the outer blade housing and is stationary or rotates relatively slowly with respect to the borehole while advancing into the borehole and the plurality of blades continually adjusted during drilling; (b) inducing an electrical current in the target well, said induced electrical current resulting in a magnetic field about the target well; (c) measuring substantially continuously at least three magnetic field measurements using the magnetic field sensor while rotary drilling, the at least three magnetic field measurement being made over a range of toolface angles greater than 180 degrees; (d) computing an average of at least three magnetic field measurements made to obtain an average magnetic field measurement; (e) processing in the controller the average magnetic field measurement to obtain a displacement vector;
processing the displacement vector to obtain a steering vector;
processing the steering vector to obtain new rotary steerable tool settings; and(f) adjusting a direction of rotary drilling using the new steering tool settings without stopping the rotary drilling or removing the drill string. - View Dependent Claims (6, 7, 8)
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9. A closed loop method for drilling a twin well along a predetermined path with respect to a target well, the target well being cased with a metallic liner, the method comprising:
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(a) rotary drilling the twin well using a drill string comprising a drill bit, a current generating tool, a rotary steerable tool, a controller disposed in the drill string and a magnetic field sensor, the rotary steerable tool comprising an outer blade housing having a rotating shaft deployed in the outer blade housing and a plurality of blades that engage a borehole, wherein the magnetic field sensor is deployed in the outer blade housing and the plurality of blades continually adjust during drilling; (b) inducing an electrical current in the target well liner using the current generating tool while rotary drilling, said induced electrical current resulting in a magnetic field about the target well; (c) measuring the magnetic field substantially continuously while drilling at multiple tool face angles; (d) applying a band pass filter to the plurality of magnetic field measurements to obtain an undistorted signal component of the magnetic field measurements; (e) processing the undistorted signal component of the magnetic field measurements to obtain a displacement vector;
processing the displacement vector to obtain a steering vector;
processing the steering vector to obtain new rotary steerable tool settings; and(f) adjusting the drilling direction o using the new steering tool settings without stopping the rotary drilling or removing the drill string. - View Dependent Claims (10, 11, 12, 13)
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14. A closed loop method for drilling a twin well along a predetermined path with respect to a target well, the target well being cased with a metallic liner, the method comprising:
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(a) rotary drilling the twin well using a drill string including a drill bit, a current generating tool, a rotary steerable tool, and a magnetic field sensor deployed in a roll-stabilized housing in the rotary steerable tool, said rotary drilling causing the rotary steerable tool to rotate at a first rate with respect to the borehole; (b) rotating the roll-stabilized housing in the rotary steerable tool while rotary drilling in (a) thereby causing the magnetic field sensor to rotate at a second rate with respect to the borehole, wherein the second rate is less than the first rate; (c) inducing an electrical current in the target well liner using the current generating tool while rotary drilling, said induced electrical current resulting in a magnetic field about the target well; (d) making a plurality of magnetic field measurements using the magnetic field sensor while rotary drilling; (e) applying a band pass filter to the plurality of magnetic field measurements to obtain an undistorted signal component of the magnetic field measurements; (f) processing the undistorted signal component of the magnetic field measurements to obtain a displacement vector;
processing the displacement vector to obtain a steering vector;
processing the steering vector to obtain new rotary steerable tool settings; and(g) changing a direction of rotary drilling using the new steering tool settings obtained. - View Dependent Claims (15, 16, 17, 18)
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Specification
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Current AssigneeSchlumberger Technology Corporation (Schlumberger NV)
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Original AssigneeSchlumberger Technology Corporation (Schlumberger NV)
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InventorsSugiura, Junichi
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Primary Examiner(s)PATIDAR, JAY M
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Application NumberUS13/525,241Publication NumberTime in Patent Office1,509 DaysField of Search324/346US Class Current1/1CPC Class CodesE21B 44/00 Automatic control systems s...E21B 47/022 of the borehole, e.g. using...E21B 7/046 horizontal drilling drillin...
