Rock Fluid Imaging Lab

RFI Lab specializes in integrated geomechanics, seismic tomography, and AI-driven reservoir characterization for complex and challenging subsurface environments.

Our expertise includes:

Geomechanics & Well Integrity

• Well stability analysis and optimal well trajectory design
• Analysis of fractured, weak, and over-pressured formations
• Sanding prevention and control
• Subsidence and caprock integrity assessment
• Fault reactivation risk during production and EOR
• Prevention of eruption and geomechanical failure during production or EOR

Reservoir Stimulation & EOR Support

• Acidizing feasibility studies to enhance permeability
• Hydrofracturing design and optimization
• Time-lapse fluid movement and EOR monitoring using Tomography Resistivity and Spectral IP imaging
• Time-lapse and EOR monitoring using Fiber Optic Sensing

Reservoir Characterization

• Lithology and pore-fluid characterization
• Pore pressure estimation and imaging
• Sealing versus leaking fault analysis

Advanced Imaging & Prediction Technologies

RFI Lab delivers high-resolution subsurface imaging using advanced tomography and seismic technologies to transform data into reliable reservoir insight.

Our imaging capabilities include:

• Long-offset resistivity and spectral IP tomography (Tomoresip™, OceanOhm™) up to 5 km, with multi-node, high-density electrode systems
• Tomography-based wave imaging
• Pore pressure imaging
• Facies and stratigraphic imaging
• Porosity distribution imaging
• Pore-fluid prediction

State-of-the-Art Laboratory Facilities

RFI Lab operates advanced laboratories designed to replicate true reservoir condition, enabling accurate and reliable measurements.

Laboratory Capabilities

• Computer-based Multistage Triaxial high-pressure geomechanics
• Seismic wave rock physical measurement in under high pessure reservoir conditions (SeisCore™)
• Long-offset resistivity and spectral IP tomography (Tomoresip™, OceanOhm™) up to 5 km, with multi-node, high-density electrode systems
• Time-lapse tomography imaging
• Enhanced Oil Recovery (EOR) simulation physical model laboratory
• Rock Physics and Geomechanics Lab in high-pressure and deep-water environment

Advanced Core Analysis

• Digital helium porosity–permeability measurements under variable overburden pressure
• Static elastic rock mechanics testing
• Acid etching and matrix acid injection
• Core resistivity and capillary pressure analysis
• Contact angle and wettability measurement
• Time lapse X-ray imaging of core sample for EOR simulation

GeoSymphony™ – Intelligent Reservoir Imaging Platform

RFI Lab develops GeoSymphony™, a leading-edge reservoir imaging and geomechanics software platform operating on a high-performance parallel computing cluster.

GeoSymphony™ Capabilities

• 2D and 3D seismic lithofacies prediction using Hybrid AI and Rock Physics
• AI-based geomechanics and rock physics modeling
• Well stability analysis using Well Tensor™
• Pore pressure and fracture prediction

GeoSymphony™ integrates statistical rock physics, Monte Carlo simulation, and artificial neural networks (AI) to deliver highly accurate predictions of:

• Reservoir facies
• Porosity
• Fluid type and distribution
• Pore pressure

Advanced Seismic & Tomography Methods

• 3D depth imaging using Reverse Time Migration (RTM) based on inverse scattering
• Long-offset resistivity and spectral IP tomography (Tomoresip™, OceanOhm™) up to 5 km, with multi-node, high-density electrode systems
• Full-waveform tomography
• Fracture imaging tomography
• Thin-bed and high-resolution imaging
• 3D tomostatic imaging
• Advanced denoising and seismic reconstruction
• Fluid flow simulation

Fiber Optics & Field Technologies

RFI Lab is equipped with advanced field-scale monitoring technologies, including:

• Distributed Acoustic Sensing (DAS-GeoFoton™) – 60 km fiber optics sensing with 0.4 m spacing
• Distributed Temperature Sensing (DTS-GeoFoton™) – 10 km fiber optics sensing with 0.4 m spacing
• Long-offset resistivity and spectral IP tomography (Tomoresip™, OceanOhm™) up to 5 km for deep target and high accurate with multi-node, high-density electrode systems

 Why Choose RFI Lab?

• Reduce drilling and production risk
• Improve well placement and reservoir performance
• Predict geomechanical hazards before they occur
• Integrate lab data, field measurements, seismic, and AI modeling
• Proven solutions for complex reservoirs and deep targets