Fractured Reservoir Prediction
FRS+ is a new product developed on the EPoffice platform based on the original
With the help of rock physics modeling of anisotropic fractured reservoir and its prestack seismic forward simulation, the azimuthal anisotropy induced by subsurface fractures is extracted from prestack seismic attributes such as amplitudes, velocities, frequencies, attenuations or any other else at different azimuths. Therefore with numeric modeling of regional structural stress and poststack faulting system detection incorporated, the orientation and intensity of fractures of various scales can be quantitatively characterized and this provides practical solutions to the E&P challenges of fractured reservoirs.
Azimuthal anisotropy analysis of seismic attributes for fracture detection
Trace reconstruction for narrow-azimuth seismic data based on MWNI,which improves azimuth distribution of the seismic data notably.
Rock physics modeling of anisotropic fractured reservoir and its prestack seismic forward simulation for fracture interpretation.
Numerical modeling of stress field & curvature analysis for fracture detection
Elastic thin plate theory based numerical modeling of stress filed to detect structure-related fractures.
High-precision seismic curvature analysis combined with image processing technology.