Directional drill ahead simulator: directional wellbore prediction using BHA and bit models

What is claimed is: 1. A method for drilling a borehole in a rock formation according to a predicted path by a bottomhole assembly (BHA) comprising a drill bit coupled to a drill tubular, the BHA being operated by a drill rig, the method comprising: constructing a BHA model of the BHA, the BHA model comprising (a) dimensions, geometry, mass distribution, material density, and material stiffness of the BHA and (b) dimensions and geometry of the borehole as predicted to be drilled, the BHA model being configured to calculate (c) one or more points of contact between the BHA and a wall of the borehole and (d) forces imposed on the BHA at the one or more contact points, the forces comprising a side force vector imposed on the drill bit, and (e) drill bit tilt; calculating confined pressure by entering one of (i) borehole depth and mud weight and (ii) borehole depth, mud weight, and pore pressure into a first function based on porosity and/or permeability; calculating confined compressive strength by entering the calculated confined pressure, unconfined compressive strength, and internal angle of friction of the rock formation into a second function; calculating axial motion of the drill bit using lithology information, drilling parameters, drill bit design information, an effective back rake of one or more cutters, the confined compressive strength, and a force applied to each of the one or more cutters, the force being based on the calculated confined compressive strength, the area of cut, the effective back rake, and an orientation of each of the one or more cutters with respect to a surface of rock to be cut, wherein the effective back rake comprises an angle between a normal to a local cutting surface and a local rock surface; calculating lateral motion of the drill bit using a lateral motion drill bit model that receives (i) the calculated confined compressive strength, (ii) the lithology information, (iii) the drill bit design information, and (iv) the drill bit side force vector and drill bit tilt from the BHA model; calculating a ratio of the lateral motion to the axial motion; calculating an inclination angle and an azimuthal direction of the BHA using a BHA steering model that receives the ratio; iterating the constructing, calculating confined pressure, calculating confined compressive strength, calculating axial motion, calculating lateral motion, calculating a ratio, and calculating an inclination angle and an azimuthal direction to provide an updated BHA model that includes extending the borehole an incremental distance in the direction of the inclination angle and the azimuthal direction and displacing the BHA the incremental distance in the extended borehole to provide the predicted path; wherein the constructing, calculating confined pressure, calculating confined compressive strength, calculating axial motion, calculating lateral motion, calculating a ratio, and calculating an inclination angle and an azimuthal direction are implemented by a processor; and drilling the borehole with the drill rig in accordance with the predicted path based on the drilling parameters. 2. The method according to claim 1 , wherein a weight-on-bit is specified by a user and the axial motion drill bit model is configured to calculate a rate-of-penetration of the BHA. 3. The method according to claim 1 , wherein a rate-of-penetration (ROP) is specified by a user and the axial motion drill bit model is configured to calculate a weight-on-bit that provides the ROP. 4. The method according to claim 1 , wherein the iterating is terminated when a desired location in the formation is reached by the borehole. 5. The method according to claim 1 , further comprising determining the drilling parameters that result in the borehole reaching a desired location. 6. The method according to claim 1 , wherein the drilling parameters comprise at least one selection from a group consisting of weight-on-bit, torque applied to the drill tubular, rotary speed of the drill tubular, rate-of-penetration, and drilling fluid flowrate. 7. The method according to claim 1 , wherein lateral motion comprises lateral displacement and axial motion comprises axial displacement. 8. The method according to claim 1 , wherein lateral motion comprises lateral rate-of-penetration (ROP) and axial motion comprises axial ROP. 9. The method according to claim 1 , wherein the lithology information is received from a lithology log. 10. The method according to claim 1 , further comprising updating the borehole dimensions and geometry in the BHA model using borehole caliper information received from a sensor configured to measure borehole diameter. 11. The method according to claim 1 , further comprising updating the lithology information using data sensed by a downhole sensor disposed on a BHA as a borehole is being drilled. 12. The method according to claim 1 , further comprising presenting the predicted path to a user using a display. 13. A non-transitory computer-readable medium comprising computer-executable instructions for drilling a borehole in an earth formation according to a predicted path by a bottomhole assembly (BHA) comprising a drill bit coupled to a drill tubular, the BHA being operated by a drill rig, that when executed by a processor cause an apparatus to implement a method comprising: constructing a BHA model of the BHA, the BHA model comprising (a) dimensions, geometry, mass distribution, material density, and material stiffness of the BHA and (b) dimensions and geometry of the borehole as predicted to be drilled, the BHA model being configured to calculate (c) one or more points of contact between the BHA and a wall of the borehole and (d) forces imposed on the BHA at the one or more contact points, the forces comprising a side force vector imposed on the drill bit, and (e) drill bit tilt; calculating confined pressure using by entering one of (i) borehole depth and mud weight and (ii) borehole depth, mud weight, and pore pressure into a first function based on porosity and/or permeability; calculating confined compressive strength by entering the calculated confined pressure, unconfined compressive strength, and internal angle of friction of the rock formation into a second function; calculating axial motion of the drill bit using lithology information, drilling parameters, drill bit design information, an effective back rake of the one or more cutters, the confined compressive strength, and a force applied to each of one or more cutters, the force being based on the calculated confined compressive strength, the area of cut, the effective back rake, and an orientation of each of the one or more cutters with respect to a surface of rock to be cut, wherein the effective back rake comprises an angle between a normal to a local cutting surface and a local rock surface; calculating lateral motion of the drill bit using a lateral motion drill bit model that receives (i) the calculated confined compressive strength, (ii) the lithology information, (iii) the drill bit design information, and (iv) the drill bit side force vector and drill bit tilt from the BHA model; calculating a ratio of lateral motion to axial motion; calculating an inclination angle and an azimuthal direction of the BHA using a BHA steering model that receives the ratio; and iterating the constructing, calculating confined pressure, calculating confined compressive strength, calculating axial motion, calculating lateral motion, calculating a ratio, and calculating an inclination angle and an azimuthal direction to provide an updated BHA model that includes extending the borehole an incremental distance in the direction of the i