Presentation Skills for Petroleum Industry – PSPI

Course

In San Francisco (USA)

Price on request

Description

  • Type

    Course

  • Location

    San francisco (USA)

  • 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

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

Start date

Different dates availableEnrolment now open

Questions & Answers

Add your question

Our advisors and other users will be able to reply to you

Who would you like to address this question to?

Fill in your details to get a reply

We will only publish your name and question

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

Training Course Content

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

Presentation Skills for Petroleum Industry – PSPI

Price on request