Seismic Interpretation - Reservoir Prediction Team with Featured Technologies
2017-08-31
The seismic interpretation and reservoir prediction team has established a research system for different exploration and development stages, different geological conditions and different reservoir types. Through cooperation with the geological research team, the main geological problems are clarified. The reservoir prediction methods are used to provide customers with target-oriented seismic interpretation work and actively cooperate with geological research, reserve declaration, well position deployment and tracking while drilling. At the same time, with its own advantages of being closer to the geological target, using well data and seismic forward methods, the quality control and assistance of the seismic data processing team to carry out the processing of well control targets, and the establishment of multi-link interactive collaboration and integrated service of geological targets. In addition, adhere to and continuously deepen the technical methods of quantitative seismic interpretation, face the study of oil reservoirs, use geological statistics inversion, reservoir parameter inversion and other leading technical means, serve developers, provide lithological models, reservoir parameter models and oil and gas-bearing information for geological modeling and reservoir numerical simulation, and realize the research ideas from seismic to reservoirs. Featured technologies of the Seismic Data Interpretation and Reservoir Prediction team include:
➢ Log formation evaluation and petrophysical modeling techniques for tight sandstone reservoirs;
➢ Log formation evaluation for complex reservoirs (shale gas, tight oil and gas);
➢ Anisotropic petrophysics modeling techniques for fractured reservoirs;
➢ Anisotropic well seismic calibration technology serving wide azimuth seismic processing and fracture prediction;
➢ Pre- and post-stack joint inversion technique and lithofacies fluid probability analysis;
➢ Pre- and post-stack geostatistically invert high-resolution reservoir predictions;
➢ Fracture prediction technology and sub-direction inversion based on wide-azimuth seismic data;
➢ Pore fluid prediction based on broadband seismic data;
➢ Direct inversion of reservoir parameters based on petrophysical model;