Method for developing a geomechanical model based on seismic data, well logs and sem analysis of horizontal and vertical drill cuttings

What is claimed is: 1 . A method for modeling geomechanical properties in an underground volume including an oil and/or gas reservoir, the method comprising: obtaining seismic data acquired with sensors placed to probe the underground volume, well logs of wells drilled inside the underground volume, and composition information of horizontal, deviated and vertical drill cuttings from the wells; calibrating the well logs using the composition information of horizontal, deviated and vertical drill cuttings from the wells yielding calibrated well logs; generating an initial structural model of the underground volume based on the calibrated well logs; inverting the seismic data using the initial structural model to determine values of elastic properties inside the underground volume; performing a multi-variant statistical analysis using the values of the elastic properties to generate a three-dimensional, 3D, seismic-based mechanical-properties model of the underground volume; and tuning the 3D seismic-based mechanical-properties model using the calibrated well logs and composition information of the horizontal, deviated and vertical drill cuttings. 2 . The method of claim 1 , further comprising: performing 3D coupled flow and geomechanical simulations using the 3D seismic-based mechanical properties model, to predict evolution of structure and properties inside the underground volume, for different oil and/or gas production scenarios. 3 . The method of claim 2 , wherein the coupled flow and geomechanical simulations include looping between a reservoir modeling based on reservoir characterization, and a stress and strain modeling of the oil and/or gas reservoir, under-burden and over-burden volumes related to the oil and/or gas reservoir. 4 . The method of claim 2 , further comprising: optimizing oil and/or gas extraction from the oil and/or gas reservoir based on results of the coupled flow and geomechanical simulations. 5 . The method of claim 1 , wherein the seismic data is pre-stacked, migrated and subjected to seismic gather conditioning before the inverting. 6 . The method of claim 5 , wherein the seismic gather conditioning removes noise from the pre-stacked migrated seismic data using one or more of following techniques: angle muting, random noise attenuation, high density anisotropic velocity estimation, multiples attenuation, filtering, offset angle conversion, and residual time shift. 7 . The method of claim 1 , wherein the inverting is deterministic and/or stochastic, and the elastic properties include S-impedance, P-impedance and density. 8 . The method of claim 1 , wherein the composition information is obtained using scanning electron microscopy, SEM. 9 . The method of claim 1 , further comprising: inverting the seismic data using the improved 3D seismic-based mechanical model of the volume to update the values of the elastic properties inside the underground volume; re-iterating the multi-variant statistical analysis using the updated values of the elastic properties inside the underground volume and the well logs to obtain an updated 3D seismic-based mechanical model of the underground volume; and improving the updated 3D seismic-based mechanical model using the well logs calibrated using the composition information for the horizontal and the vertical drill cuttings. 10 . A computer-readable medium containing computer-executable code that when read by a computer causes the computer to perform a method for modeling geomechanical properties in an underground volume including an oil and/or gas reservoir, the method comprising: obtaining seismic data acquired with sensors placed to probe the underground volume, well logs of wells drilled inside the underground volume, and composition information of horizontal, deviated and vertical drill cuttings from the wells; calibrating the well logs using the composition information of horizontal, deviated and vertical drill cuttings from the wells yielding calibrated well logs; generating an initial structural model of the underground volume based on the calibrated well logs; inverting the seismic data using the initial structural model to determine values of elastic properties inside the underground volume; performing a multi-variant statistical analysis using the values of the elastic properties to generate a three-dimensional, 3D, seismic-based mechanical-properties model of the underground volume; and tuning the 3D seismic-based mechanical-properties model using the calibrated well logs and composition information of the horizontal, deviated and vertical drill cuttings. 11 . The computer-readable medium of claim 10 , wherein the method further comprises: performing 3D coupled flow and geomechanical simulations using the improved 3D seismic-based mechanical model, to predict evolution of structure and properties inside the underground volume, for different oil and/or gas production scenarios. 12 . The computer-readable medium of claim 11 , wherein the coupled flow and geomechanical simulations include looping between a reservoir modeling based on reservoir characterization, and a stress and strain modeling of the oil and/or gas reservoir, under-burden and over-burden volumes related to the oil and/or gas reservoir. 13 . The computer-readable medium of claim 11 , wherein the method further comprises: optimizing oil and/or gas extraction from the oil and/or gas reservoir based on results of the coupled flow and geomechanical simulations. 14 . The computer-readable medium of claim 10 , wherein the seismic data is pre-stacked, migrated and subjected to seismic gather conditioning before the inverting. 15 . The computer-readable medium of claim 14 , wherein the seismic gather conditioning removes noise from the pre-stacked migrated seismic data using one or more of following techniques: angle muting, random noise attenuation, high density anisotropic velocity estimation, multiples attenuation, filtering, offset angle conversion, and residual time shift. 16 . The computer-readable medium of claim 10 , wherein the inverting is deterministic and/or stochastic, and the elastic properties include S-impedance, P-impedance and density. 17 . The computer-readable medium of claim 10 , wherein the composition information is obtained using scanning electron microscopy, SEM. 18 . The computer-readable medium of claim 10 , wherein the method further comprises: inverting the seismic data using the improved 3D seismic-based mechanical model of the volume to update the values of the elastic properties inside the underground volume; re-iterating the multi-variant statistical analysis using the updated values of the elastic properties inside the underground volume and the well logs to obtain an updated 3D seismic-based mechanical model of the underground volume; and improving the updated 3D seismic-based mechanical model using the well logs calibrated using the composition information for the horizontal, deviated and the vertical well drill cuttings. 19 . A system for studying oil and gas recovery from an underground volume including an oil and/or gas reservoir, the system comprising: a seismic survey arrangement configured to acquire seismic data related to the underground volume; drilling equipment configured to drill wells inside the underground volume and to retrieve horizontal, deviated and vertical drill cuttings at predetermined locations; and a seismic data processing apparatus configured to obtain the seismic data, well logs