Method for steering a well path perpendicular to vertical fractures for enhanced production efficiency

What is claimed is: 1. A method for drilling a wellbore, comprising: drilling a well along a path substantially along a bedding direction of a selected subsurface formation having at least one substantially vertical fracture therein; determining a geometric parameter of the at least one substantially vertical fracture based on electromagnetic signals received in an instrument in the wellbore, wherein determining the parameter comprises: estimating the parameter of the at least one substantially vertical fracture; determining an expected response of an instrument using an initial model of the formation including the fracture having the estimated parameter; measuring a measured response of the instrument using the electromagnetic signals; and adjusting the parameter, another geometric parameter of the at least one substantially vertical fracture, or both, based on a comparison of the expected response and the measured response; adjusting a direction of the path based on the determined at least one parameter; determining an existence of a plurality of fractures in a selected inversion measured depth window; determining an average of directions of the determined existing fractures with respect to the well path direction; and adjusting the path of the wellbore so that the path is substantially perpendicular to the average of directions. 2. The method of claim 1 wherein estimating an initial orientation of the at least one substantially vertical fracture with respect to the axis of the wellbore and a distance from the fracture to a position where electromagnetic measurements were obtained by receiving the electromagnetic signals; and repeating determining the expected response, and comparing the expected response to the measured response until a difference between the expected response and the measured response either falls below a selected threshold or a number of repetitions thereof-exceeds a predetermined number; and displaying the model after or displaying an indication of non-convergence. 3. The method of claim 2 wherein the determining the initial orientation and the distance comprises: calculating a first derivative with respect to wellbore depth of the multiaxial electromagnetic induction measurements; determining at least one peak and an amplitude thereof of the first derivatives; and using the peak and the amplitude to determine the location by displaying the first derivatives with respect to wellbore depth. 4. The method of claim 3 further comprising selecting a threshold value for amplitude and excluding from evaluation any peak in the first derivatives with respect to wellbore depth. 5. The method of claim 2 wherein two mutually orthogonal axes are rotated such that one thereof is in a vertical direction. 6. The method of claim 2 further comprising accepting as input to the multiaxial electromagnetic measurements at least one additional receiver spacing from the transmitter and determining the parameter of the at least one substantially vertical fracture using the additional receiver spacing. 7. The method of claim 2 further comprising displaying the input electromagnetic measurements in depth correspondence with first derivatives thereof as a quality control indication. 8. The method of claim 2 wherein the electromagnetic measurements comprise electromagnetic induction measurements. 9. The method of claim 2 wherein the electromagnetic measurements comprise electromagnetic propagation measurements. 10. The method of claim 9 wherein the electromagnetic measurements are acquired while an electromagnetic propagation well logging instrument is rotated. 11. The method of claim 2 wherein the measurements comprise multiaxial electromagnetic measurements made along two mutually orthogonal axes perpendicular to and parallel to an axis of the wellbore, the measurements corresponding to at least one receiver spacing from a transmitter. 12. The method of claim 1 wherein the adjusting a direction of the well path comprises operating a directional drilling device. 13. The method of claim 12 wherein the directional drilling device comprises a steerable drilling motor. 14. The method of claim 12 wherein the directional drilling device comprises a rotary steerable directional drilling system. 15. The method of claim 1 wherein determining the geometric parameter of the at least one substantially vertical fracture occurs prior to drilling therethrough. 16. A system for drilling a wellbore, comprising: a directional drilling device coupled to a drill string having a drill bit at a longitudinal end thereof; and an instrument configured to determine a direction of fractures in a formation, wherein the instrument includes a processor configured to perform operations comprising: determining a geometric parameter of the at least one substantially vertical fracture based on electromagnetic signals received in an instrument in the wellbore, wherein determining the parameter comprises: estimating the parameter of the at least one substantially vertical fracture; determining an expected response of an instrument using an initial model of the formation including the fracture having the estimated parameter; measuring a measured response of the instrument using the electromagnetic signals; adjusting the parameter, another geometric parameter of the at least one substantially vertical fracture, or both, based on a comparison of the expected response and the measured response; and calculating a first derivative with respect to wellbore depth of multiaxial electromagnetic induction measurements; determining at least one peak and an amplitude thereof of the first derivatives; and using the peak and the amplitude to determine the location by displaying the first derivatives with respect to wellbore depth. 17. The system of claim 16 wherein the operations further comprise: estimating the parameter comprises determining an initial orientation of the at least one substantially vertical fracture with respect to the axis of the wellbore and a distance from the fracture to a position where electromagnetic measurements were obtained by receiving the electromagnetic signals; adjusting the parameter comprising adjusting the parameter and repeating determining the expected response, and comparing the expected response to the measured response until a difference between the expected response and the measured response either falls below a selected threshold or a number of repetitions thereof exceeds a predetermined number; and displaying the model after or displaying an indication of non-convergence. 18. The system of claim 16 wherein the directional drilling device comprises a steerable drilling motor. 19. The system of claim 16 wherein the directional drilling device comprise a rotary steerable directional drilling system.