CO2 Surface Facilities - PF-81

Course

In San Francisco (USA)

Price on request

Description

  • Type

    Course

  • Location

    San francisco (USA)

  • Start date

    Different dates available

Fundamentals of seismology: Body waves that travel through a solid medium. Reflection, refraction, mode-conversion; Fundamentals of reflection seismology. P-P multi-azimuth. P-S multi-azimuth. S-S multi-azimuth; Fundamentals of seismic anisotropy; Fundamentals of 3D wide-azimuth seismic data acquisition. Issues of cost, number of channels, geophones chosen, recording system, fold, etc. Vertical component acquisition; multi-component acquisition; Fundamentals of seismic data processing: P-P multi-azimuth. P-S multi-azimuth. S-S multi-azimuth. Requirements for processing sequences. Necessity to comprehend the (chosen) contractor's definition of 'azimuth', and checks throughout processing to determine if the contractor is adhering to its definition of azimuth; Fundamentals of seismic data interpretation for fractured reservoir analysis, and in-situ stress evaluation. Commercially available software needed for multi-azimuth and/or multi-component 3D seismic interpretation; Fundamentals of seismic data modeling for anisotropy. Common (different) assumptions within different modeling packages; Commercially available support data. Where to find it; what it costs; how to integrate the required support data

Facilities

Location

Start date

San Francisco (USA)
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333 Bush Street, Suite 2400, 94104

Start date

Different dates availableEnrolment now open

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Subjects

  • Interpretation
  • 3d training
  • 3D
  • Data Interpretation
  • Evaluation

Course programme

Training Course Content

Fundamentals of seismology: Body waves that travel through a solid medium. Reflection, refraction, mode-conversion; Fundamentals of reflection seismology. P-P multi-azimuth. P-S multi-azimuth. S-S multi-azimuth; Fundamentals of seismic anisotropy; Fundamentals of 3D wide-azimuth seismic data acquisition. Issues of cost, number of channels, geophones chosen, recording system, fold, etc. Vertical component acquisition; multi-component acquisition; Fundamentals of seismic data processing: P-P multi-azimuth. P-S multi-azimuth. S-S multi-azimuth. Requirements for processing sequences. Necessity to comprehend the (chosen) contractor's definition of 'azimuth', and checks throughout processing to determine if the contractor is adhering to its definition of azimuth; Fundamentals of seismic data interpretation for fractured reservoir analysis, and in-situ stress evaluation. Commercially available software needed for multi-azimuth and/or multi-component 3D seismic interpretation; Fundamentals of seismic data modeling for anisotropy. Common (different) assumptions within different modeling packages; Commercially available support data. Where to find it; what it costs; how to integrate the required support data

Basics of NMR technology; NMR Core Analysis; Rock typing from NMR core data and its relationship to logs; Pore geometry and what it means for the interpretation of NMR data; NMR logs; Job Planning; Log Quality Control; Working with NMR data (various exercises throughout the course)

Fundamentals of seismology: Body waves that travel through a solid medium. Reflection, refraction, mode-conversion; Fundamentals of reflection seismology. P-P multi-azimuth. P-S multi-azimuth. S-S multi-azimuth; Fundamentals of seismic anisotropy; Fundamentals of 3D wide-azimuth seismic data acquisition. Issues of cost, number of channels, geophones chosen, recording system, fold, etc. Vertical component acquisition; multi-component acquisition; Fundamentals of seismic data processing: P-P multi-azimuth. P-S multi-azimuth. S-S multi-azimuth. Requirements for processing sequences. Necessity to comprehend the (chosen) contractor's definition of 'azimuth', and checks throughout processing to determine if the contractor is adhering to its definition of azimuth; Fundamentals of seismic data interpretation for fractured reservoir analysis, and in-situ stress evaluation. Commercially available software needed for multi-azimuth and/or multi-component 3D seismic interpretation; Fundamentals of seismic data modeling for anisotropy. Common (different) assumptions within different modeling packages; Commercially available support data. Where to find it; what it costs; how to integrate the required support data

Basics of NMR technology; NMR Core Analysis; Rock typing from NMR core data and its relationship to logs; Pore geometry and what it means for the interpretation of NMR data; NMR logs; Job Planning; Log Quality Control; Working with NMR data (various exercises throughout the course)

Additional information