Continuous geomechanically stable wellbore trajectories
First Claim
1. A method for calculation of a continuous geomechanically stable trajectory in a subterranean formation comprising the steps of:
- (i) providing a starting position;
(ii) calculating a number of reachable positions by drilling relative to the starting position wherein the number of reachable positions by drilling is 2 or greater and each reachable position by drilling is a first distance from the starting position using a computer;
(iii) determining hoop stresses around a circumference of a borehole at each reachable position by drilling from a geomechanical model of the subterranean formation using a poro-elastic analytic solution based on an inclination-azimuth plane of the borehole and principal stresses from the geomechanical model at each reachable position using a computer;
(iv) selecting a set of stable positions from the number of reachable positions by drilling by determining whether all the hoop stresses around the circumference of the borehole at each reachable position by drilling have a magnitude of shear or tensile failure less than a predetermined magnitude using a Mohr-Coulomb failure criterion using the computer;
(v) repeating steps (ii), (iii) and (iv) for each stable positions wherein each stable position serves as a starting position until a final position is reached using the computer; and
outputting results of each of steps (i), (ii), (iii) and (iv) in tangible form.
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Accused Products
Abstract
A continuous geomechanically stable trajectory in a subterranean formation is found by calculating at least one reachable stable position relative to a starting position based on geological data indicative of characteristics of the subterranean formation, and iteratively utilizing the calculated reachable stable position as a new starting position. The calculation may be constrained by a boundary including selected distance and direction relative to the starting position, and selected rate of angle change. Within the constraints of the boundary, the possible new trajectories considered may be discretized. The result of the calculations is a three dimensional tree which defines a stability volume. Pruning of at least some branches of the tree may be employed so that not all stable positions have the preselected number of branches, thereby helping to elongate the tree. Either or both of the tree and stability volume are used to select at least one trajectory. For example, the trajectory may be selected from sets of interconnected stable wellbore positions, or based on some other criteria constrained by the stability volume. The trajectory is then used as the basis for drilling a borehole.
43 Citations
28 Claims
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1. A method for calculation of a continuous geomechanically stable trajectory in a subterranean formation comprising the steps of:
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(i) providing a starting position; (ii) calculating a number of reachable positions by drilling relative to the starting position wherein the number of reachable positions by drilling is 2 or greater and each reachable position by drilling is a first distance from the starting position using a computer; (iii) determining hoop stresses around a circumference of a borehole at each reachable position by drilling from a geomechanical model of the subterranean formation using a poro-elastic analytic solution based on an inclination-azimuth plane of the borehole and principal stresses from the geomechanical model at each reachable position using a computer; (iv) selecting a set of stable positions from the number of reachable positions by drilling by determining whether all the hoop stresses around the circumference of the borehole at each reachable position by drilling have a magnitude of shear or tensile failure less than a predetermined magnitude using a Mohr-Coulomb failure criterion using the computer; (v) repeating steps (ii), (iii) and (iv) for each stable positions wherein each stable position serves as a starting position until a final position is reached using the computer; and outputting results of each of steps (i), (ii), (iii) and (iv) in tangible form. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A computer program product, comprising a non-transitory computer readable medium having a computer readable program code embodied therein, said computer readable program code containing instructions for causing a computer processor to:
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calculate a number of reachable position by drilling relative to a starting position wherein the number of reachable positions by drilling is 2 or greater and each reachable position by drilling is a first distance from the starting position; determine hoop stresses around a circumference of a borehole at each reachable position by drilling from a geomechanical model of the subterranean formation using a poro-elastic solution based on an inclination-azimuth plane of the borehole and principal stresses from the geomechanical model at each reachable position; select a set of stable positions from the reachable positions by drilling by determining whether all the hoop stresses around the circumference of the borehole at each reachable position by drilling have a magnitude of shear or tensile failure less than a predetermined magnitude using a Mohr-Coulomb failure criterion; repeat the calculate, determine and select instructions for each of the stable positions wherein each stable position is a new starting position until a final position is reached; and outputting results of the iterative calculate, determine and select instructions in tangible form. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. Apparatus for calculation of a continuous geomechanically stable trajectory in a subterranean formation comprising:
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a machine that calculates a number of reachable positions by drilling relative to a starting position wherein the number of reachable positions by drilling is 2 or greater and each reachable position by drilling is a first distance from the starting position; determining hoop stresses around a circumference of a borehole at each reachable position by drilling from a geomechanical model of the subterranean formation using a poro-elastic analytic solution based on an inclination-azimuth plane of the borehole and principal stresses from the geomechanical model at each reachable position; selecting a set of stable positions from the reachable positions by drilling by determining whether all the hoop stresses around the circumference of the borehole at each reachable position by drilling have a magnitude of shear or tensile failure less than a predetermined magnitude using a Mohr-Coulomb failure criterion; repeating the calculating, determining and selecting for each of the stable positions wherein each stable position is a starting position until a final position is reached; and an interface that outputs results of the iterative calculating, determining and selecting elements in tangible form. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27)
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28. A method of drilling a borehole in a subterranean formation comprising the steps of:
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calculating a number of reachable positions by drilling relative to a starting position wherein the number of reachable positions by drilling is 2 or greater; determining hoop stresses around a circumference of a borehole at each reachable position by drilling from a geomechanical model of the subterranean formation using a poro-elastic analytic solution based on an inclination-azimuth plane of the borehole and principal stresses from the geomechanical model at each reachable position; selecting a set of stable positions from the reachable positions by drilling by determining whether all the hoop stresses around the circumference of the borehole at each reachable position by drilling have a magnitude of shear or tensile failure less than a predetermined magnitude using a Mohr-Coulomb failure criterion; repeating the calculating, determining and selecting steps for each stable position wherein each stable position is a starting position until a final position is reached; selecting at least one trajectory from the from the sets of stable positions; and employing a representation of the at least one selected trajectory to drill at least one borehole in the formation.
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Specification