Operations Geology - OG

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and EOR projects

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Fundamental concepts of petrophysics; Depositional systems and petrophysical rock parameters; Nature of porosity and permeability; Basic rock properties; theory and quicklook techniques; Mudlogging; Core analysis, acquisition, interpretation, and quality checks; Theory and basics of resistivity, radioactivity, acoustic tools; LWD/MWD versus open hole logging; Determination of rock types using core and logs; Cased hole logging; Petrophysical impact on economic uncertainty; Evolving petrophysical technologies

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and EOR projects

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and EOR projects

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Fundamental concepts of petrophysics; Depositional systems and petrophysical rock parameters; Nature of porosity and permeability; Basic rock properties; theory and quicklook techniques; Mudlogging; Core analysis, acquisition, interpretation, and quality checks; Theory and basics of resistivity, radioactivity, acoustic tools; LWD/MWD versus open hole logging; Determination of rock types using core and logs; Cased hole logging; Petrophysical impact on economic uncertainty; Evolving petrophysical technologies

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and EOR projects

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and EOR projects

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Fundamental concepts of petrophysics; Depositional systems and petrophysical rock parameters; Nature of porosity and permeability; Basic rock properties; theory and quicklook techniques; Mudlogging; Core analysis, acquisition, interpretation, and quality checks; Theory and basics of resistivity, radioactivity, acoustic tools; LWD/MWD versus open hole logging; Determination of rock types using core and logs; Cased hole logging; Petrophysical impact on economic uncertainty; Evolving petrophysical technologies

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and EOR projects

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and EOR projects

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Fundamental concepts of petrophysics; Depositional systems and petrophysical rock parameters; Nature of porosity and permeability; Basic rock properties; theory and quicklook techniques; Mudlogging; Core analysis, acquisition, interpretation, and quality checks; Theory and basics of resistivity, radioactivity, acoustic tools; LWD/MWD versus open hole logging; Determination of rock types using core and logs; Cased hole logging; Petrophysical impact on economic uncertainty; Evolving petrophysical technologies

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and EOR projects

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and EOR projects

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Fundamental concepts of petrophysics; Depositional systems and petrophysical rock parameters; Nature of porosity and permeability; Basic rock properties; theory and quicklook techniques; Mudlogging; Core analysis, acquisition, interpretation, and quality checks; Theory and basics of resistivity, radioactivity, acoustic tools; LWD/MWD versus open hole logging; Determination of rock types using core and logs; Cased hole logging; Petrophysical impact on economic uncertainty; Evolving petrophysical technologies

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and EOR projects

The nature of seismic data; What is wave propagation?; What causes seismic reflections and how they relate to rock properties including pore filling material; The wavelet in the seismic data and its limit of resolution; Seismic velocities as they relate to rock properties and the imaging process; The relationship between seismic velocities and pore pressure; Pore pressure prediction; Seismic data processing and seismic migration; Prestack, poststack, time and depth imaging; Direct hydrocarbon indicators and AVO; Seismic inversion for rock and fluid properties; Seismic attributes; Time lapse reservoir monitoring (4D seismic surveys); Recent developments in seismic acquisition, processing, and interpretation

Offshore systems overview and field architecture selection; Well construction and servicing equipment and operation; Flow assurance; Topside facilities; Oil and gas transportation facilities; Riser systems; Subsea systems; Production operations; Infrastructure impact on design and operations; Effects of the ocean environment; Introduction to naval architecture; Structural design processes and tools; Construction plans and execution; Project management lessons learned; Life-cycle and decommissioning considerations

Purpose and uses of reserves estimates; Types of reserves studies; How to read and understand a reserves report; SPE-PRMS reserves definitions; SEC reserves definitions; Compliant reserves estimation methods using: Analogies, volumetric analysis, performance analysis, and material balance; Supplemental compliant estimation techniques incorporating: Probabilistic analysis and simulation; Economics and reserves; Special reserves estimation topics - Reserves reporting in low permeability reservoirs, shale gas reservoirs, CBM, and...