Meeting Management and Facilitation for the Petroleum Industry - MMF

Asset life cycles, professional roles, hydrocarbon reservoir descriptions. Porosity, permeability, compressibility, capillary pressure, wettability and relative permeability, averaging reservoir property data; Phase behavior of reservoir fluids, gas properties, oil properties, water properties, PVT sampling and understanding PVT laboratory reports; Calculate original hydrocarbons in-place with volumetric methods, build hydrocarbon volume vs depth relationships, and review reserve booking guidelines; Oil recovery material balance, Havlena-Odeh method, gas material balance, volumetric, compaction, water drive and compartmentalized reservoirs; Oil well testing: Radial flow theory, wellbore storage and skin, drawdowns, buildups, curve shapes, type curve solutions, pseudo steady state, steady state, average pressure estimates, PI and IPR relationships; Gas well testing: Pressure, pressure squared, real gas pseudo pressure solutions, rate sensitive skins, multi-rate testing, gas well deliverability; Hurst van Everdingen, Carter Tracy, and Fetkovitch methods of aquifer analysis and description; Immiscible displacement: Fluid displacement process, fractional flow, Buckley Leverett, Welge; Description of coning, cusping, and over/under running, critical rates calculations, breakthrough times, horizontal well applications; Gas reservoirs: volumetric, water drive and compaction drive-oil reservoirs: water drive, water flood, gravity drainage, gas cap expansion, combination drive, naturally fractured and critical reservoir fluid reservoirs; Gas field developments: characteristics, deliverability issues, contracts, planning tools-oil field developments: development phases, reservoir characterization, sweep and recovery, production policies; Reservoir simulation: Why simulate? Various simulation models, simulator types, setting up a simulator model

Basic well completion design, practices, and strategies; Well quality and integrity; Safety aspects of well design; Packer selection and tubing forces; Wellheads/chokes/ subsurface safety valves and flow control equipment; Corrosion and erosion Inflow and tubing performance; Tubing design and selection; Materials selection; Deviated/multiple zone/subsea horizontal/multilateral and hpht completion considerations; Perforating design; Causes and prevention of formation damage; Stimulation design considerations; Sand control; Wireline/coiled tubing/workover rig operations; Snubbing

Types of pumps, compressors, and drivers and their common applications and range of operations.; Evaluation and selection of pumps and compressors and their drivers for long-term efficient operations.; Unit and station configuration including multiple trains in series and/or parallel operations.; Integration with upstream and downstream process equipment, local and remote control systems, and facilities utilities.; Key auxiliary systems including monitoring equipment, heat exchangers, lube and seal systems, and fuel/power systems.; Major design, installation, operating, troubleshooting, and maintenance considerations.

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.

Asset life cycles, professional roles, hydrocarbon reservoir descriptions. Porosity, permeability, compressibility, capillary pressure, wettability and relative permeability, averaging reservoir property data; Phase behavior of reservoir fluids, gas properties, oil properties, water properties, PVT sampling and understanding PVT laboratory reports; Calculate original hydrocarbons in-place with volumetric methods, build hydrocarbon volume vs depth relationships, and review reserve booking guidelines; Oil recovery material balance, Havlena-Odeh method, gas material balance, volumetric, compaction, water drive and compartmentalized reservoirs; Oil well testing: Radial flow theory, wellbore storage and skin, drawdowns, buildups, curve shapes, type curve solutions, pseudo steady state, steady state, average pressure estimates, PI and IPR relationships; Gas well testing: Pressure, pressure squared, real gas pseudo pressure solutions, rate sensitive skins, multi-rate testing, gas well deliverability; Hurst van Everdingen, Carter Tracy, and Fetkovitch methods of aquifer analysis and description; Immiscible displacement: Fluid displacement process, fractional flow, Buckley Leverett, Welge; Description of coning, cusping, and over/under running, critical rates calculations, breakthrough times, horizontal well applications; Gas reservoirs: volumetric, water drive and compaction drive-oil reservoirs: water drive, water flood, gravity drainage, gas cap expansion, combination drive, naturally fractured and critical reservoir fluid reservoirs; Gas field developments: characteristics, deliverability issues, contracts, planning tools-oil field developments: development phases, reservoir characterization, sweep and recovery, production policies; Reservoir simulation: Why simulate? Various simulation models, simulator types, setting up a simulator model

Basic well completion design, practices, and strategies; Well quality and integrity; Safety aspects of well design; Packer selection and tubing forces; Wellheads/chokes/ subsurface safety valves and flow control equipment; Corrosion and erosion Inflow and tubing performance; Tubing design and selection; Materials selection; Deviated/multiple zone/subsea horizontal/multilateral and hpht completion considerations; Perforating design; Causes and prevention of formation damage; Stimulation design considerations; Sand control; Wireline/coiled tubing/workover rig operations; Snubbing

Types of pumps, compressors, and drivers and their common applications and range of operations.; Evaluation and selection of pumps and compressors and their drivers for long-term efficient operations.; Unit and station configuration including multiple trains in series and/or parallel operations.; Integration with upstream and downstream process equipment, local and remote control systems, and facilities utilities.; Key auxiliary systems including monitoring equipment, heat exchangers, lube and seal systems, and fuel/power systems.; Major design, installation, operating, troubleshooting, and maintenance considerations.

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.

Asset life cycles, professional roles, hydrocarbon reservoir descriptions. Porosity, permeability, compressibility, capillary pressure, wettability and relative permeability, averaging reservoir property data; Phase behavior of reservoir fluids, gas properties, oil properties, water properties, PVT sampling and understanding PVT laboratory reports; Calculate original hydrocarbons in-place with volumetric methods, build hydrocarbon volume vs depth relationships, and review reserve booking guidelines; Oil recovery material balance, Havlena-Odeh method, gas material balance, volumetric, compaction, water drive and compartmentalized reservoirs; Oil well testing: Radial flow theory, wellbore storage and skin, drawdowns, buildups, curve shapes, type curve solutions, pseudo steady state, steady state, average pressure estimates, PI and IPR relationships; Gas well testing: Pressure, pressure squared, real gas pseudo pressure solutions, rate sensitive skins, multi-rate testing, gas well deliverability; Hurst van Everdingen, Carter Tracy, and Fetkovitch methods of aquifer analysis and description; Immiscible displacement: Fluid displacement process, fractional flow, Buckley Leverett, Welge; Description of coning, cusping, and over/under running, critical rates calculations, breakthrough times, horizontal well applications; Gas reservoirs: volumetric, water drive and compaction drive-oil reservoirs: water drive, water flood, gravity drainage, gas cap expansion, combination drive, naturally fractured and critical reservoir fluid reservoirs; Gas field developments: characteristics, deliverability issues, contracts, planning tools-oil field developments: development phases, reservoir characterization, sweep and recovery, production policies; Reservoir simulation: Why simulate? Various simulation models, simulator types, setting up a simulator model

Basic well completion design, practices, and strategies; Well quality and integrity; Safety aspects of well design; Packer selection and tubing forces; Wellheads/chokes/ subsurface safety valves and flow control equipment; Corrosion and erosion Inflow and tubing performance; Tubing design and selection; Materials selection; Deviated/multiple zone/subsea horizontal/multilateral and hpht completion considerations; Perforating design; Causes and prevention of formation damage; Stimulation design considerations; Sand control; Wireline/coiled tubing/workover rig operations; Snubbing

Types of pumps, compressors, and drivers and their common applications and range of operations.; Evaluation and selection of pumps and compressors and their drivers for long-term efficient operations.; Unit and station configuration including multiple trains in series and/or parallel operations.; Integration with upstream and downstream process equipment, local and remote control systems, and facilities utilities.; Key auxiliary systems including monitoring equipment, heat exchangers, lube and seal systems, and fuel/power systems.; Major design, installation, operating, troubleshooting, and maintenance considerations.

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.

Asset life cycles, professional roles, hydrocarbon reservoir descriptions. Porosity, permeability, compressibility, capillary pressure, wettability and relative permeability, averaging reservoir property data; Phase behavior of reservoir fluids, gas properties, oil properties, water properties, PVT sampling and understanding PVT laboratory reports; Calculate original hydrocarbons in-place with volumetric methods, build hydrocarbon volume vs depth relationships, and review reserve booking guidelines; Oil recovery material balance, Havlena-Odeh method, gas material balance, volumetric, compaction, water drive and compartmentalized reservoirs; Oil well testing: Radial flow theory, wellbore storage and skin, drawdowns, buildups, curve shapes, type curve solutions, pseudo steady state, steady state, average pressure estimates, PI and IPR relationships; Gas well testing: Pressure, pressure squared, real gas pseudo pressure solutions, rate sensitive skins, multi-rate testing, gas well deliverability; Hurst van Everdingen, Carter Tracy, and Fetkovitch methods of aquifer analysis and description; Immiscible displacement: Fluid displacement process, fractional flow, Buckley Leverett, Welge; Description of coning, cusping, and over/under running, critical rates calculations, breakthrough times, horizontal well applications; Gas reservoirs: volumetric, water drive and compaction drive-oil reservoirs: water drive, water flood, gravity drainage, gas cap expansion, combination drive, naturally fractured and critical reservoir fluid reservoirs; Gas field developments: characteristics, deliverability issues, contracts, planning tools-oil field developments: development phases, reservoir characterization, sweep and recovery, production policies; Reservoir simulation: Why simulate? Various simulation models, simulator types, setting up a simulator model

Basic well completion design, practices, and strategies; Well quality and integrity; Safety aspects of well design; Packer selection and tubing forces; Wellheads/chokes/ subsurface safety valves and flow control equipment; Corrosion and erosion Inflow and tubing performance; Tubing design and selection; Materials selection; Deviated/multiple zone/subsea horizontal/multilateral and hpht completion considerations; Perforating design; Causes and prevention of formation damage; Stimulation design considerations; Sand control; Wireline/coiled tubing/workover rig operations; Snubbing

Types of pumps, compressors, and drivers and their common applications and range of operations.; Evaluation and selection of pumps and compressors and their drivers for long-term efficient operations.; Unit and station configuration including multiple trains in series and/or parallel operations.; Integration with upstream and downstream process equipment, local and remote control systems, and facilities utilities.; Key auxiliary systems including monitoring equipment, heat exchangers, lube and seal systems, and fuel/power systems.; Major design, installation, operating, troubleshooting, and maintenance considerations.

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.