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Rock Fluid Imaging Lab (RFI Lab) is an innovative company that provides leading-edge technology solutions and services to the oil and gas industry. RFI Lab specializes in Well Stability Analysis (covering Trajectory wells, Fractured zones, Weak zones, and Overpressure zones), Feasibility studies of Acidizing reservoirs to enhance permeability, Prevention and Control of Sanding Problems in Wells, Hydrofracturing Design, Subsidence, Cap-Rock Integrity, Preventions of Eruption and Fault Reactivation during Enhanced Oil Recovery (EOR), as well as Lithology-Pore Fluid Characterization, Pore Pressure Estimation, and Sealing-Leaking Fault Analysis.
The services offered by RFI Lab encompass wave imaging (time-depth imaging) and reservoir parameter imaging, which includes facies, porosity, and pore fluid predictions.
Equipped with state-of-the-art technology, the company features a laboratory for computer-based triaxial high-pressure confined geomechanics, seismic wave physical modeling, and SeisCoreTM for Seismic Rock Physics Measurement under reservoir conditions. We possess specialized equipment designed for simulating measurements in high-pressure or deep-water environments.
Additionally, the lab is equipped with advanced core measurement tools, including digital helium porosity-permeability meters that operate under various overburden pressures, digital rock mechanics measurement systems (for static elastic measurements of core), acid etching and matrix acid injection, core resistivity measurement, capillary pressure analysis, and contact angle measurement for wettability assessment.
RFI builds and develops the leading-edge reservoir imaging software, GeoSymphony, which operates on a parallel cluster of 200 processors, facilitating 2D/3D seismic data interpretation and well stability analysis (Well TensorTM).
RFI Lab-GeoSymphony provides the latest advanced technology for precise seismic reservoir imaging, utilizing a Hybrid statistical Rock Physics-statistical Monte Carlo Artificial Neural Network to deliver accurate predictions of facies, porosity, and fluid type, including the distribution of reservoir pore pressure.
RFI Lab-GeoSymphony also offers the latest technology in 3D depth migration, employing reversed time migration based on inverse scattering to generate accurate 3D images of the structure, alongside advanced methods for noise elimination, including static noise. We offer pore pressure imaging predictions, as well as fracture predictions using the Fracture Module of GeoSymphony.
Rock Fluid Imaging Lab provides various technologies, including:
- DAS - Geofoton
- Long-Offset Resistivity Tomography
- Reservoir Geomechanics
- Sanding Prevention
- Well Stability Analysis
- Caprock Integrity Analysis during EOR
- Fault Reactivation Analysis during Production
- Sealing Leaking Fault Analysis
- Seismic Rock Physics
- Stratigraphy Reservoir Characterization
- Lithofacies Prediction
- Fracture Prediction
- Porosity and Pore Fluid Prediction
- Pore Pressure Prediction
- Reversed Time Migration
- Full-Wave Form Tomography
- Tomography for Fracture Imaging
- Thin Bed Imaging
- 3D Tomostatic
- Denoising and Reconstructing Seismic Images
- Fluid Flow Simulation
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