Presentation Skills for Petroleum Industry – PSPI
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
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
Facilities
Location
Start date
Start date
Reviews
Subjects
- Gas
- Systems
- Testing
- Simulation
- IT Development
- Basic IT
- Basic IT training
- Basic
- Oil Field
- Oil Well
- Contracts
- Production
- Property
- Planning
- Installation
- Logic
- Engineering
- Design
- Evaluation
- Monitoring
- Skills and Training
- Presentation
- Presentation Skills
- Industry
- Petroleum
Course programme
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
The basic nature of carbonate sediments and sedimentation; The efficiency of the carbonate factory and its influence on cyclicity and platform development; Carbonate platform types; Carbonate facies models; Basic concepts of sequence stratigraphy including eustasy, relative sea level, accommodation model, and sequence stratigraphy as a predictive tool; Relationship of stratigraphic patterns to changes in subsidence rates as driven by regional and earth scale tectonic processes; Sequence stratigraphic models including the ramp, the rimmed shelf, the escarpment margin, the isolated platform and the mixed carbonate-siliciclastic shelf; The characteristics of carbonate pore systems and their geologic and engineering classifications including petrophysics and rock fabric; Sea level, diagenesis, porosity evolution and its distribution at the time of burial; The fate of early formed porosity during burial in a hydrotectonic framework; Carbonate reservoir modeling; Case histories from the Americas, Africa, Europe and Asia; Exercises from the US and Europe based on actual data sets; Exploration and exploitation strategies in carbonate terrains
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.
Fundamentals; Field measurement devices; Final elements and actuators; Pressure relief and pressure regulation; Instrumentation documentation; Control system basics; Programmable logic controllers; Supervisory control and data acquisition (SCADA) systems; Distributed control systems (DCS); Safety instrumented system (SIS); Hazardous areas and equipment selection
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
The basic nature of carbonate sediments and sedimentation; The efficiency of the carbonate factory and its influence on cyclicity and platform development; Carbonate platform types; Carbonate facies models; Basic concepts of sequence stratigraphy including eustasy, relative sea level, accommodation model, and sequence stratigraphy as a predictive tool; Relationship of stratigraphic patterns to changes in subsidence rates as driven by regional and earth scale tectonic processes; Sequence stratigraphic models including the ramp, the rimmed shelf, the escarpment margin, the isolated platform and the mixed carbonate-siliciclastic shelf; The characteristics of carbonate pore systems and their geologic and engineering classifications including petrophysics and rock fabric; Sea level, diagenesis, porosity evolution and its distribution at the time of burial; The fate of early formed porosity during burial in a hydrotectonic framework; Carbonate reservoir modeling; Case histories from the Americas, Africa, Europe and Asia; Exercises from the US and Europe based on actual data sets; Exploration and exploitation strategies in carbonate terrains
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.
Fundamentals; Field measurement devices; Final elements and actuators; Pressure relief and pressure regulation; Instrumentation documentation; Control system basics; Programmable logic controllers; Supervisory control and data acquisition (SCADA) systems; Distributed control systems (DCS); Safety instrumented system (SIS); Hazardous areas and equipment selection
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
The basic nature of carbonate sediments and sedimentation; The efficiency of the carbonate factory and its influence on cyclicity and platform development; Carbonate platform types; Carbonate facies models; Basic concepts of sequence stratigraphy including eustasy, relative sea level, accommodation model, and sequence stratigraphy as a predictive tool; Relationship of stratigraphic patterns to changes in subsidence rates as driven by regional and earth scale tectonic processes; Sequence stratigraphic models including the ramp, the rimmed shelf, the escarpment margin, the isolated platform and the mixed carbonate-siliciclastic shelf; The characteristics of carbonate pore systems and their geologic and engineering classifications including petrophysics and rock fabric; Sea level, diagenesis, porosity evolution and its distribution at the time of burial; The fate of early formed porosity during burial in a hydrotectonic framework; Carbonate reservoir modeling; Case histories from the Americas, Africa, Europe and Asia; Exercises from the US and Europe based on actual data sets; Exploration and exploitation strategies in carbonate terrains
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.
Fundamentals; Field measurement devices; Final elements and actuators; Pressure relief and pressure regulation; Instrumentation documentation; Control system basics; Programmable logic controllers; Supervisory control and data acquisition (SCADA) systems; Distributed control systems (DCS); Safety instrumented system (SIS); Hazardous areas and equipment selection
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
The basic nature of carbonate sediments and sedimentation; The efficiency of the carbonate factory and its influence on cyclicity and platform development; Carbonate platform types; Carbonate facies models; Basic concepts of sequence stratigraphy including eustasy, relative sea level, accommodation model, and sequence stratigraphy as a predictive tool; Relationship of stratigraphic patterns to changes in subsidence rates as driven by regional and earth scale tectonic processes; Sequence stratigraphic models including the ramp, the rimmed shelf, the escarpment margin, the isolated platform and the mixed carbonate-siliciclastic shelf; The characteristics of carbonate pore systems and their geologic and engineering classifications including petrophysics and rock fabric; Sea level, diagenesis, porosity evolution and its distribution at the time of burial; The fate of early formed porosity during burial in a hydrotectonic framework; Carbonate reservoir modeling; Case histories from the Americas, Africa, Europe and Asia; Exercises from the US and Europe based on actual data sets; Exploration and exploitation strategies in carbonate terrains
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.
Fundamentals; Field measurement devices; Final elements and actuators; Pressure relief and pressure regulation; Instrumentation documentation; Control system basics; Programmable logic controllers; Supervisory control and data acquisition (SCADA) systems; Distributed control systems (DCS); Safety instrumented system (SIS); Hazardous areas and equipment selection
Additional information
Expenses
The course price depends on the selected location or venue.
In-house training
This course can also be delivered as in-house training for your team at your offices or at any convenient location. PetroSkills can provide you with a flexible and cost-effective solution for your staff training.
Presentation Skills for Petroleum Industry – PSPI
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