a) Production history and depth of each well b) Geographical location of the production targets of each well. c) Verticalized (Tvd) production intervals of each well d) Production geological formation e) Structural map of the production formation
All the producing wells are correlated with the Norm function (distance between wells) d=∥w∥=√((X_1-X_2 )^2+(Y_1+Y_2 )^2 )
It is calculated with the Law of Well Correlation in each Norm in the geographic plane. Therefore, the initial position of each axial plane* is the beginning of the structural fold.
Reconstruction of each fault or fracture trend in each axial plane with the exponential function
Calculate the depth at each point of each fault or fracture trend with the Kriging method
A. BUILD UP OF THE GEOMECHANIC STRESS DISTRIBUTION NETWORK IN THE OILFIELD UNDER STUDY* B. GETTING ALL THE STRESS SYSTEMS WHERE THE FAULTS OR FRACTURES CONVERGE TO IDENTIFY CENTERS OF DRAIN TO LOCATE HYDROCARBON TRAPS* C. DETERMINE LOCATIONS OR TARGETS TO DRILL GATHERING SEISMIC SECTIONS D. INTEGRATE GEOLOGIC STRUCTURAL SECTIONS OF EACH LOCATION OR TARGET TO DRILL E. INTEGRATE PETROPHYSICAL CORRELATIONS OF EACH LOCALIZATION OR TARGET TO DRILL F. INTEGRATE DRILLING’S TRAJECTORY OF EACH LOCALIZATION OR TARGET TO DRIL G. INTEGRATE GEOLOGICAL COLUMN OF EACH LOCALIZATION OR TARGET TO DRILL H. INTEGRATE NODAL ANALYSIS OF EACH LOCALIZATION OR TARGET DRILL I. COMPARE THE LOCATIONS TO DRILL UNDER GEOLOGICAL RISK MATRIX ASSESSMENT J. EVALUATE OR QUALIFY THE LOCATION TO DRILL UNDER THE ABOVE CRITERIA K. ESTIMATE THE PRODUCTION OF LOCATION TO DRILL L. ECONOMIC EVALUATION OF EACH LOCATION OR TARGET TO DRILL