Fracture prediction technology focuses on research and consulting services for natural fracture prediction in unconventional reservoirs. Provide quantitative parameters for well placement, trajectory optimization, drilling parameters and fracture modeling, fracturing program optimization. Track the implementation of drilling and fracturing engineering to put forward adjustment and optimization suggestions, so that the project implementation smoothly, for customers to improve production and efficiency.
Comprehensive multi technology prediction: Based on post stack seismic data, integrated construction guided filtering, 3D amplitude curvature, and ant body tracking are used for prediction.
High prediction accuracy: The prediction results have high resolution. Using outcrop, core observations, micro-seismic, imaging logging, drilling, and fracturing to verify and ensure high consistency with actual drilling conditions.
Efficiency: The predicted results can guide the development of shale gas, coalbed methane, tight sandstone gas, and fractured carbonate oil and gas reservoirs, helping to reduce drilling and completion engineering risks and improve fracturing efficiency.
Strong adaptability: The seismic response characteristics of fractures at different scales are different. Based on the characteristics of the reservoir and production tasks, corresponding scale fractures can be predicted to guide the development of different reservoirs.
Natural fracture prediction technology can help customers address the following pain points:
The occurrence of well leakage and casing deformation events during shale gas drilling is often related to fractures and natural cracks, making the identification of natural fracture very important.
In actual production, microseismic detection often reveals a wealth of microseismic events, some of which are related to fractures or cracks, and the reliability of microseismic events cannot be predicted.
Conventional natural fracture prediction technologies for shale gas reservoirs have strong reliance on seismic data, low fracture identification resolution, and low accuracy, resulting in predictive outcomes that cannot provide pre-drilling warnings or assist in trajectory adjustments.
High-precision fracture prediction can guide drilling trajectory optimization, mud performance configuration, in-drilling trajectory optimization, design and optimization of fracturing segment and cluster schemes, fracturing modification scale, processes, and parameter settings, analysis of fracturing effects, and analysis of key factors influencing shale gas production, thereby effectively enhancing the effectiveness of fracturing modifications and the production capacity of individual wells.
The optimal implementation plan,real-time tracking and comprehensive evaluation of shale gas Wells in CN area of Sichuan Basin.
The main controlling factors and development mode of shale gas high production in H well area of Sichuan Basin.
The technical service of shale gas sweet spot in block N of Sichuan Basin.
The sweet point technical service of 6 Wells in S gas deposit in Sichuan Basin.
Technical services of high-quality reservoir evaluation and development target optimization project in J block of Sichuan Basin.
The technical services of fault and melt body identification and characterization in SB region of Tarim Basin.
Integrated development plan of CBM geological engineering in CN area of Sichuan Basin Main body.