Strategic Procurement and Supply Management in the Oil and Gas Industry - SC-62
Course
In San Francisco (USA)
Description
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Type
Course
-
Location
San francisco (USA)
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Start date
Different dates available
Conventional decline curve equations: exponential, hyperbolic and harmonic rate versus time and rate versus cumulative production relationships, selecting the proper equation based on reservoir properties and drive mechanisms; The effects of transient production: how to recognize transient production, how transient forecasts can overestimate remaining reserves, how to properly constrain transient forecasts; Forecasting during displacement processes: using trends like water-oil ratio and versus cumulative oil production to estimate ultimate oil recovery, converting these trends into an oil rate versus time forecast; Difficult situations: layered and compartmented reservoirs, downtime, workovers, changing facility conditions and facility constraints, forecasting groups of wells, common mistakes; Production decline type-curves: Introduction and historical background on production decline type-curve methods, how to use modern decline type-curves to determine reservoir properties during both transient and stabilized production, using type-curve methods for forecasting future production
Facilities
Location
Start date
Start date
Reviews
Subjects
- Production
- Forecasting
- Systems
- Forecasts
- Monitoring
- Communications
- Interpretation
- Electrical
- Gas
- Oil and Gas
- IT Management
- Management
- Construction Training
- Data Management
- Philosophy
- Layout
- Construction
- Supply
- Industry
- Supply Management
Course programme
Conventional decline curve equations: exponential, hyperbolic and harmonic rate versus time and rate versus cumulative production relationships, selecting the proper equation based on reservoir properties and drive mechanisms; The effects of transient production: how to recognize transient production, how transient forecasts can overestimate remaining reserves, how to properly constrain transient forecasts; Forecasting during displacement processes: using trends like water-oil ratio and versus cumulative oil production to estimate ultimate oil recovery, converting these trends into an oil rate versus time forecast; Difficult situations: layered and compartmented reservoirs, downtime, workovers, changing facility conditions and facility constraints, forecasting groups of wells, common mistakes; Production decline type-curves: Introduction and historical background on production decline type-curve methods, how to use modern decline type-curves to determine reservoir properties during both transient and stabilized production, using type-curve methods for forecasting future production
Key electrical power considerations and fundamentals applied in oil and gas facilities.; Voltage levels and power type (3-phase, single-phase, and direct current) selection and application.; Purchased power considerations including generation efficiency, redundant sources, transmission grid parameters, and cost considerations.; Electric power distribution, systems loads, internal grid layout, major distribution equipment and cabling.; Power users definition and integration into the power distribution system.; Electrical system safety.; Process systems operations and the key characteristics, and measurement needs, as well astechniques to measure and control.; Control modes and their applications, communications requirements, and the operator andcomputer controller interface.; Interrelationships between process, equipment, instruments and controls.; Field (facility) control and monitoring systems such as pressure and level indicators and controllers.; Field (facility) safety monitoring and response systems including SIS, HIPPS and emergency shutdown valves.; System-wide considerations including communications, local control, remote control, and data management and use.
Introduction: philosophy and history; Geophysical fundamentals; Breaking out operational sequences; Introduction to fault interpretation; Chronostratigraphy construction and interpretation; Sea level curves, accommodation space, and cycle orders; Vail sequence theory and sequence hierarchy; Carbonate sequences; Siliciclastic sequences; Seismic Facies; Paleo-environmental analysis; Geohistory reconstruction; Optimizing exploration
Conventional decline curve equations: exponential, hyperbolic and harmonic rate versus time and rate versus cumulative production relationships, selecting the proper equation based on reservoir properties and drive mechanisms; The effects of transient production: how to recognize transient production, how transient forecasts can overestimate remaining reserves, how to properly constrain transient forecasts; Forecasting during displacement processes: using trends like water-oil ratio and versus cumulative oil production to estimate ultimate oil recovery, converting these trends into an oil rate versus time forecast; Difficult situations: layered and compartmented reservoirs, downtime, workovers, changing facility conditions and facility constraints, forecasting groups of wells, common mistakes; Production decline type-curves: Introduction and historical background on production decline type-curve methods, how to use modern decline type-curves to determine reservoir properties during both transient and stabilized production, using type-curve methods for forecasting future production
Key electrical power considerations and fundamentals applied in oil and gas facilities.; Voltage levels and power type (3-phase, single-phase, and direct current) selection and application.; Purchased power considerations including generation efficiency, redundant sources, transmission grid parameters, and cost considerations.; Electric power distribution, systems loads, internal grid layout, major distribution equipment and cabling.; Power users definition and integration into the power distribution system.; Electrical system safety.; Process systems operations and the key characteristics, and measurement needs, as well astechniques to measure and control.; Control modes and their applications, communications requirements, and the operator andcomputer controller interface.; Interrelationships between process, equipment, instruments and controls.; Field (facility) control and monitoring systems such as pressure and level indicators and controllers.; Field (facility) safety monitoring and response systems including SIS, HIPPS and emergency shutdown valves.; System-wide considerations including communications, local control, remote control, and data management and use.
Introduction: philosophy and history; Geophysical fundamentals; Breaking out operational sequences; Introduction to fault interpretation; Chronostratigraphy construction and interpretation; Sea level curves, accommodation space, and cycle orders; Vail sequence theory and sequence hierarchy; Carbonate sequences; Siliciclastic sequences; Seismic Facies; Paleo-environmental analysis; Geohistory reconstruction; Optimizing exploration
Conventional decline curve equations: exponential, hyperbolic and harmonic rate versus time and rate versus cumulative production relationships, selecting the proper equation based on reservoir properties and drive mechanisms; The effects of transient production: how to recognize transient production, how transient forecasts can overestimate remaining reserves, how to properly constrain transient forecasts; Forecasting during displacement processes: using trends like water-oil ratio and versus cumulative oil production to estimate ultimate oil recovery, converting these trends into an oil rate versus time forecast; Difficult situations: layered and compartmented reservoirs, downtime, workovers, changing facility conditions and facility constraints, forecasting groups of wells, common mistakes; Production decline type-curves: Introduction and historical background on production decline type-curve methods, how to use modern decline type-curves to determine reservoir properties during both transient and stabilized production, using type-curve methods for forecasting future production
Key electrical power considerations and fundamentals applied in oil and gas facilities.; Voltage levels and power type (3-phase, single-phase, and direct current) selection and application.; Purchased power considerations including generation efficiency, redundant sources, transmission grid parameters, and cost considerations.; Electric power distribution, systems loads, internal grid layout, major distribution equipment and cabling.; Power users definition and integration into the power distribution system.; Electrical system safety.; Process systems operations and the key characteristics, and measurement needs, as well astechniques to measure and control.; Control modes and their applications, communications requirements, and the operator andcomputer controller interface.; Interrelationships between process, equipment, instruments and controls.; Field (facility) control and monitoring systems such as pressure and level indicators and controllers.; Field (facility) safety monitoring and response systems including SIS, HIPPS and emergency shutdown valves.; System-wide considerations including communications, local control, remote control, and data management and use.
Introduction: philosophy and history; Geophysical fundamentals; Breaking out operational sequences; Introduction to fault interpretation; Chronostratigraphy construction and interpretation; Sea level curves, accommodation space, and cycle orders; Vail sequence theory and sequence hierarchy; Carbonate sequences; Siliciclastic sequences; Seismic Facies; Paleo-environmental analysis; Geohistory reconstruction; Optimizing exploration
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In-house training
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Strategic Procurement and Supply Management in the Oil and Gas Industry - SC-62
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