Formation and Reservoir Solutions (FRS) Rock Physics & Geomechanics

Service-Powered Solutions – Maximizing value for acoustic logging

Robust rock physics and geomechanics models reduce uncertainty and manage risk throughout the life of a reservoir. This is key in basins where knowledge of stress field orientation is critical for well placement and reservoir development. Our Formation and Reservoir Solutions team, along with superior downhole sensor technology, can provide robust rock physics and geomechanics solutions to help develop and manage your reservoirs.

Our acoustic interpretation products enable you to calculate minimum and maximum principal stresses and stress field orientation. This is achieved by combining oriented slowness data with overburden and pore-pressure data. Compressional and shear data can be used to evaluate near-wellbore vs. far wellbore stress effects. Additionally, we can estimate formation damage near the wellbore, detect the presence of shear anisotropy, and the presence of fractures.

Geomechanics Products

  • Rock mechanical properties and moduli
  • Wellbore integrity
  • Stress

Geophysics Products

  • Synthetic seismogram, Well-tie
  • P-wave imaging, Q estimation, shear estimation
  • Velocity modeling from ray-tracing
  • AVO analysis

Let us collaborate with you to customize acquisition programs that help guarantee the data and interpretations meet your objectives. Our in-depth understanding of the technology and access to the entire Halliburton technical organization ensure we maximize the value of every single service. Service-Powered Solutions.

 
ShaleXpertSM Integrated Analysis Solution
Advanced Source Rock Reservoir Analysis Solution. Engineers and geoscientists need petrophysical solutions that will define the most optimum techniques to deliver most shale gas and oil to the market. Halliburton ShaleXpert new integrated analysis solution, based on a calibrated workflow for organic shales, can bring all the pieces together.
TightGasXpert℠ Interpretation Service
Advanced Tight Gas Reservoir Analysis. Since unconventional tight gas sands demonstrate much higher matrix permeability than organic source rocks, a tailored asset solution also exists to both optimize and predict fracture flow performance from these reservoirs.

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  TitleНазвание  DateДата
Summary Summary Improving the Recovery of Your Well
Delivering the lowest cost per BOE
Summary Summary Crossed-Dipole (HTI) Anisotropy Analysis
Sonic crossed-dipole anisotropy analysis—the analysis of shearslowness characteristics around the borehole—is modeled in the industry as a formation with horizontal transverse isotropy (HTI).
Summary Summary Crossed-Dipole (HTI-F) Anisotropy Frequency Analysis
The broadband firing of the Xaminer®-level dipole sources allows for a full-frequency analysis and the generation of mechanism plots for visually identifying the possible causes of the anisotropy that can then be confirmed with other sensors, such as resistivity and acoustic imaging.
Summary Summary Vertical Transverse Isotropy (VTI) Anisotropy Analysis
Improve Well Performance with More Accurate Geomechanics Answers Using Horizontal Shear
Summary Summary Stoneley Wave Fracture Conductivity Analysis
Sonic waveform analysis of Stoneley-mode arrivals can locate and estimate the conductivity of fractures crossing a borehole. A key feature of the analysis is to discriminate Stoneley responses due solely to conductive fractures by using borehole Stoneley waves recorded by a Xaminer®-level borehole sonic tool.
Summary Summary ShaleXpertSM
Advanced Source Rock Reservoir Analysis Solution
Summary Summary ShaleXpertSM Integrated Analysis Solution
Advanced Source Rock Reservoir Analysis Solution. Engineers and geoscientists need petrophysical solutions that will define the most optimum techniques to deliver most shale gas and oil to the market. Halliburton ShaleXpert new integrated analysis solution, based on a calibrated workflow for organic shales, can bring all the pieces together.
Summary Summary TightGasXpert℠ Interpretation Service
Advanced Tight Gas Reservoir Analysis. Since unconventional tight gas sands demonstrate much higher matrix permeability than organic source rocks, a tailored asset solution also exists to both optimize and predict fracture flow performance from these reservoirs.
Summary Summary Formation and Reservoir Solutions (FRS) Rock Physics & Geomechanics
Petrophysical evaluation helps reduce uncertainty and manage risk throughout the life of a reservoir. Hydrocarbon fluid identification, porosity characterization, saturation estimations, and permeability are necessary input data for robust resource estimates. They are also used to formulate a strategy for reservoir development. Our Formation and Reservoir Solutions (FRS) team, along with superior downhole sensor technology, can help you evaluate your reservoirs in the most challenging environments. Our teams are ready to share their global expertise in both clastic and carbonate rocks, as well as conventional and unconventional reservoirs.
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