Methods and systems to predict rotary drill bit walk and to design rotary drill bits and other downhole tools
First Claim
1. A computer implemented method for determining bit walk characteristics of a long gage rotary drill bit, including a gage pad having a first downhole end and a second uphole end comprising:
- applying a set of drilling conditions to the bit including a rate of penetration along a bit rotational axis, at least one characteristic of an earth formation, and at least one characteristic of a wellbore formed by the rotary drill bit;
applying a steer rate to the bit by tilting the bit relative to a fulcrum point disposed between the downhole end and the uphole end of the gage pad;
simulating, for a time interval, drilling of the earth formation by the bit under the set of drilling conditions, including calculating a steer force applied to the bit, an associated walk force and an associated walk angle;
calculating a walk rate based at least on the steer force and the walk force;
repeating the simulating and the calculating successively for a predefined number of time intervals;
calculating an average walk rate and an average walk angle for the bit over the simulated predefined number of time intervals; and
storing the calculated average walk rate and the calculated average walk angle in a computer file as determined bit walk characteristics of the rotary drill bit.
1 Assignment
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Accused Products
Abstract
Methods and systems may be provided to simulate forming a wide variety of directional wellbores including wellbores with variable tilt rates, relatively constant tilt rates, wellbores with uniform generally circular cross-sections and wellbores with non-circular cross-sections. The methods and systems may also be used to simulate forming a wellbore in subterranean formations having a combination of soft, medium and hard formation materials, multiple layers of formation materials, relatively hard stringers disposed throughout one or more layers of formation material, and/or concretions (very hard stones) disposed in one or more layers of formation material. Values of bit walk rate from such simulations may be used to design and/or select drilling equipment for use in forming a directional wellbore.
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Citations
8 Claims
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1. A computer implemented method for determining bit walk characteristics of a long gage rotary drill bit, including a gage pad having a first downhole end and a second uphole end comprising:
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applying a set of drilling conditions to the bit including a rate of penetration along a bit rotational axis, at least one characteristic of an earth formation, and at least one characteristic of a wellbore formed by the rotary drill bit; applying a steer rate to the bit by tilting the bit relative to a fulcrum point disposed between the downhole end and the uphole end of the gage pad; simulating, for a time interval, drilling of the earth formation by the bit under the set of drilling conditions, including calculating a steer force applied to the bit, an associated walk force and an associated walk angle; calculating a walk rate based at least on the steer force and the walk force; repeating the simulating and the calculating successively for a predefined number of time intervals; calculating an average walk rate and an average walk angle for the bit over the simulated predefined number of time intervals; and storing the calculated average walk rate and the calculated average walk angle in a computer file as determined bit walk characteristics of the rotary drill bit. - View Dependent Claims (2, 3, 4, 5)
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6. A method to prevent an undesired bit walk while forming a directional wellbore with a fixed cutter rotary drill bit having a downhole face and an associated sleeve having an uphole end comprising:
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applying a set of drilling conditions to the fixed cutter rotary drill bit including at least a bit rotational speed, a rate of penetration along a bit rotational axis or a bit axial force; applying at least one characteristic of an earth formation and at least one characteristic of the directional wellbore formed by the fixed cutter rotary drill bit; applying a steer rate to the fixed cutter rotary drill bit by tilting the bit relative to a fulcrum point used to direct the fixed cutter rotary drill bit to form the directional wellbore, the fulcrum point being disposed between the downhole face of the drill bit and the uphole end of the sleeve; simulating, for a time interval, drilling the earth formation using the fixed cutter rotary drill bit under the set of drilling conditions, including calculating steer forces applied to the fixed cutter rotary drill bit and associated walk forces and walk angles; calculating walk rates based at least on the steer forces and the walk forces; repeating the simulating and the calculating walk rates successively for a predefined number of time intervals; calculating an average walk rate of the bit over the simulated predefined number of time intervals; if the simulations indicate an undesired average walk rate, modifying a design of the sleeve including at least a length of the sleeve, a width of a sleeve pad and an aggressiveness of an uphole portion of the sleeve to reduce friction forces between the uphole portions of the sleeve and adjacent portions of the wellbore when steering forces are applied to the fixed cutter rotary drill bit; repeating the steps of the simulating for a time interval, calculating walk rates, repeating the simulating for a predefined number of time intervals, calculating an average walk rate and modifying a design of the sleeve until the resulting average walk rate of the fixed cutter rotary drill bit has been reduced to a satisfactory value; and storing the design of the sleeve including at least the length of the sleeve, the width of the sleeve pad and the aggressiveness of the uphole portion of the sleeve in a computer file. - View Dependent Claims (7)
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8. A computer implemented method for determining bit walk characteristics of a rotary drill bit and an associated sleeve comprising:
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applying a set of drilling conditions to the bit including at least a bit rotational speed, a bit axial force, at least one characteristic of an earth formation, and at least one characteristic of a wellbore formed by the rotary drill; applying a steer rate to the bit by tilting the bit around a fulcrum point disposed on a sleeve located above a bit face, wherein the fulcrum point is defined as a contact between an exterior portion of the sleeve and adjacent portion of wellbore; simulating, for a time interval, drilling of the earth formation by the bit under the set of drilling conditions, including calculating a steer force applied to the bit and an associated walk force; calculating a walk rate based at least on the steer force and the walk force; repeating the simulating successively for a predefined number of time intervals; and calculating average walk characteristics of the bit over the simulated predefined number of time intervals, the average walk characteristics including at least one of an average walk rate, an average walk force and an average walk angle; and storing a design of the sleeve including at least a length of the sleeve, a width of a sleeve pad and an aggressiveness of an uphole portion of the sleeve in a computer file.
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Specification