Reservoir Engineering for Other Disciplines - REO
Course
In San Francisco (USA)
Description
-
Type
Course
-
Location
San francisco (USA)
-
Start date
Different dates available
Leadership & commitment; Policy & strategic objectives; Legislation & regulation; Organization, responsibilities &r resources; Professional training & behaviors; Risk assessment & management; Planning & procedures; Contractor controls; Security; Emergency response; Performance management; Incident reporting & investigation; Audit; Management review
Facilities
Location
Start date
Start date
Reviews
Subjects
- Systems
- Performance
- Management
- IT Management
- Economics
- Production
- Planning
- IT risk
- Risk
- Evaluation
- Spreadsheet
- Petroleum
- Design
- Quality
- Monitoring
- Gas
- Simulation
- Quality Training
- IT Development
- Audit
- Leadership
- IT Security
- Security
- Management Planning
- Performance Management
- Risk Assessment
- Data analysis
- Financial Training
- Equity
- Performance Appraisal
- Natural Gas
- Cost of Capital
- Calibration
- Electrical
- Risk Analysis
- Business Operations
- Mechanics
- Geology
- Ethics
- Cash Flow
- Budgeting
- Appraisal
- Joint
- Financial
- Contracts
- Primary
- Global
- Workflow
- Satellite
- GPS
- Installation
- Reservoir Engineering
- Engineering
Course programme
Leadership & commitment; Policy & strategic objectives; Legislation & regulation; Organization, responsibilities &r resources; Professional training & behaviors; Risk assessment & management; Planning & procedures; Contractor controls; Security; Emergency response; Performance management; Incident reporting & investigation; Audit; Management review
Minerals and rocks; Plate tectonics; Geological times; Weathering and erosion; Deposition; Diagenesis; Reservoirs; Structural geology and petroleum; Origin, migration, and trapping of petroleum
Coring and core analysis objectives; Coring hardware and maximizing core recovery; Core-handling, wellsite procedures, and preservation methods; Sidewall coring and analysis; Organizing effective laboratory programs; Porosity, permeability and fluid saturation; Quality control in core analysis; Petrography and mineralogy; Special core analysis sample selection and statistical data analysis; Core-log correlation (includes nmr log calibration, acoustic, nuclear, and electrical properties) an introduction to rock mechanics; Wettability, relative permeability, capillary pressure, and reservoir fluid distribution; Data integration in reservoir simulation; Final problem: design of coring and core analysis program
Pricing: natural gas, marker crudes, OPEC, spot and futures markets, transportation; Production rate: mathematical models; Cash flow: revenue, capital and operating costs, spreadsheet exercises; Economic evaluation: present value concepts, sensitivity and risk analysis, decision trees, royalty, sources of capital, incremental economics, sunk costs, inflation; Budgeting: examples and exercises, long-range planning; Cash versus write-off decision: depreciation, depletion, and amortization; How to read an annual report: statements, financial ratios, what is and is not included, reading between the lines; Worldwide business operations: concessions, licenses, production sharing contracts, joint ventures, cost of capital, sources of funding, debt and equity; Performance appraisal: buy/sell assessments; Computer economics software; Tips on format and inclusion of economic factors in computer spreadsheet analysis; Ethics in economic analyses
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.
How much trouble can coordinate errors cause (with case studies); Key geomatics/geodesy definitions; Geospatial reference surfaces; Geodetic datums, coordinate reference systems and transformations; Global navigation satellite systems (GNSS) including GPS; Map projection methods; What is "North"; Effects of different linear units; Vertical datums, geoidal models, vertical CRS and transformations; Google earth and associated geospatial data issues; Geospatial metadata: What is it and how can it be made part of the normal workflow process; Recap and course references
Reservoir characteristics for horizontal and multilateral well applications; Well performance prediction; Wellbore stability of horizontal wells; Stress field effect on drilling, completion, production and stimulation; Geosteering; Multilateral well structure, junction and application; Formation damage and its effect on horizontal well performance; Well completion and its effect on horizontal and multilateral wells; Intelligent completion: downhole monitoring and control; Well trajectory and completion optimization; Horizontal well fracturing; Acidizing of horizontal wells; Other stimulation methods
Importance of understanding the various scales of heterogeneity in carbonate reservoirs; Carbonate deposition, diagenesis, mineralogy, rock textures and pore types; Carbonate rock and carbonate pore system classification; Carbonate rock properties and core analysis; Well log response, limitations, and strengths in carbonates; Determination of lithology, porosity, and permeability; Fracture identification and distribution; Porosity/depth relationships in limestone and dolomite reservoirs; Importance of sequence boundaries to development of pore architecture; Variations in carbonate pore architecture and its effect on permeability; Relationship of primary depositional facies, sequence stratigraphic framework and diagenetic history to pore architecture and reservoir quality; Controls on reservoir heterogeneity, from sub-reservoir to reservoir scale; Value of analogs for development of petrophysically-based reservoir models; Value and limitations of 3-D geostatistical models to understand reservoir heterogeneity and architecture
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
Leadership & commitment; Policy & strategic objectives; Legislation & regulation; Organization, responsibilities &r resources; Professional training & behaviors; Risk assessment & management; Planning & procedures; Contractor controls; Security; Emergency response; Performance management; Incident reporting & investigation; Audit; Management review
Minerals and rocks; Plate tectonics; Geological times; Weathering and erosion; Deposition; Diagenesis; Reservoirs; Structural geology and petroleum; Origin, migration, and trapping of petroleum
Coring and core analysis objectives; Coring hardware and maximizing core recovery; Core-handling, wellsite procedures, and preservation methods; Sidewall coring and analysis; Organizing effective laboratory programs; Porosity, permeability and fluid saturation; Quality control in core analysis; Petrography and mineralogy; Special core analysis sample selection and statistical data analysis; Core-log correlation (includes nmr log calibration, acoustic, nuclear, and electrical properties) an introduction to rock mechanics; Wettability, relative permeability, capillary pressure, and reservoir fluid distribution; Data integration in reservoir simulation; Final problem: design of coring and core analysis program
Pricing: natural gas, marker crudes, OPEC, spot and futures markets, transportation; Production rate: mathematical models; Cash flow: revenue, capital and operating costs, spreadsheet exercises; Economic evaluation: present value concepts, sensitivity and risk analysis, decision trees, royalty, sources of capital, incremental economics, sunk costs, inflation; Budgeting: examples and exercises, long-range planning; Cash versus write-off decision: depreciation, depletion, and amortization; How to read an annual report: statements, financial ratios, what is and is not included, reading between the lines; Worldwide business operations: concessions, licenses, production sharing contracts, joint ventures, cost of capital, sources of funding, debt and equity; Performance appraisal: buy/sell assessments; Computer economics software; Tips on format and inclusion of economic factors in computer spreadsheet analysis; Ethics in economic analyses
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.
How much trouble can coordinate errors cause (with case studies); Key geomatics/geodesy definitions; Geospatial reference surfaces; Geodetic datums, coordinate reference systems and transformations; Global navigation satellite systems (GNSS) including GPS; Map projection methods; What is "North"; Effects of different linear units; Vertical datums, geoidal models, vertical CRS and transformations; Google earth and associated geospatial data issues; Geospatial metadata: What is it and how can it be made part of the normal workflow process; Recap and course references
Reservoir characteristics for horizontal and multilateral well applications; Well performance prediction; Wellbore stability of horizontal wells; Stress field effect on drilling, completion, production and stimulation; Geosteering; Multilateral well structure, junction and application; Formation damage and its effect on horizontal well performance; Well completion and its effect on horizontal and multilateral wells; Intelligent completion: downhole monitoring and control; Well trajectory and completion optimization; Horizontal well fracturing; Acidizing of horizontal wells; Other stimulation methods
Importance of understanding the various scales of heterogeneity in carbonate reservoirs; Carbonate deposition, diagenesis, mineralogy, rock textures and pore types; Carbonate rock and carbonate pore system classification; Carbonate rock properties and core analysis; Well log response, limitations, and strengths in carbonates; Determination of lithology, porosity, and permeability; Fracture identification and distribution; Porosity/depth relationships in limestone and dolomite reservoirs; Importance of sequence boundaries to development of pore architecture; Variations in carbonate pore architecture and its effect on permeability; Relationship of primary depositional facies, sequence stratigraphic framework and diagenetic history to pore architecture and reservoir quality; Controls on reservoir heterogeneity, from sub-reservoir to reservoir scale; Value of analogs for development of petrophysically-based reservoir models; Value and limitations of 3-D geostatistical models to understand reservoir heterogeneity and architecture
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
Leadership & commitment; Policy & strategic objectives; Legislation & regulation; Organization, responsibilities &r resources; Professional training & behaviors; Risk assessment & management; Planning & procedures; Contractor controls; Security; Emergency response; Performance management; Incident reporting & investigation; Audit; Management review
Minerals and rocks; Plate tectonics; Geological times; Weathering and erosion; Deposition; Diagenesis; Reservoirs; Structural geology and petroleum; Origin, migration, and trapping of petroleum
Coring and core analysis objectives; Coring hardware and maximizing core recovery; Core-handling, wellsite procedures, and preservation methods; Sidewall coring and analysis; Organizing effective laboratory programs; Porosity, permeability and fluid saturation; Quality control in core analysis; Petrography and mineralogy; Special core analysis sample selection and statistical data analysis; Core-log correlation (includes nmr log calibration, acoustic, nuclear, and electrical properties) an introduction to rock mechanics; Wettability, relative permeability, capillary pressure, and reservoir fluid distribution; Data integration in reservoir simulation; Final problem: design of coring and core analysis program
Pricing: natural gas, marker crudes, OPEC, spot and futures markets, transportation; Production rate: mathematical models; Cash flow: revenue, capital and operating costs, spreadsheet exercises; Economic evaluation: present value concepts, sensitivity and risk analysis, decision trees, royalty, sources of capital, incremental economics, sunk costs, inflation; Budgeting: examples and exercises, long-range planning; Cash versus write-off decision: depreciation, depletion, and amortization; How to read an annual report: statements, financial ratios, what is and is not included, reading between the lines; Worldwide business operations: concessions, licenses, production sharing contracts, joint ventures, cost of capital, sources of funding, debt and equity; Performance appraisal: buy/sell assessments; Computer economics software; Tips on format and inclusion of economic factors in computer spreadsheet analysis; Ethics in economic analyses
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.
How much trouble can coordinate errors cause (with case studies); Key geomatics/geodesy definitions; Geospatial reference surfaces; Geodetic datums, coordinate reference systems and transformations; Global navigation satellite systems (GNSS) including GPS; Map projection methods; What is "North"; Effects of different linear units; Vertical datums, geoidal models, vertical CRS and transformations; Google earth and associated geospatial data issues; Geospatial metadata: What is it and how can it be made part of the normal workflow process; Recap and course references
Reservoir characteristics for horizontal and multilateral well applications; Well performance prediction; Wellbore stability of horizontal wells; Stress field effect on drilling, completion, production and stimulation; Geosteering; Multilateral well structure, junction and application; Formation damage and its effect on horizontal well performance; Well completion and its effect on horizontal and multilateral wells; Intelligent completion: downhole monitoring and control; Well trajectory and completion optimization; Horizontal well fracturing; Acidizing of horizontal wells; Other stimulation methods
Importance of understanding the various scales of heterogeneity in carbonate reservoirs; Carbonate deposition, diagenesis, mineralogy, rock textures and pore types; Carbonate rock and carbonate pore system classification; Carbonate rock properties and core analysis; Well log response, limitations, and strengths in carbonates; Determination of lithology, porosity, and permeability; Fracture identification and distribution; Porosity/depth relationships in limestone and dolomite reservoirs; Importance of sequence boundaries to development of pore architecture; Variations in carbonate pore architecture and its effect on permeability; Relationship of primary depositional facies, sequence stratigraphic framework and diagenetic history to pore architecture and reservoir quality; Controls on reservoir heterogeneity, from sub-reservoir to reservoir scale; Value of analogs for development of petrophysically-based reservoir models; Value and limitations of 3-D geostatistical models to understand reservoir heterogeneity and architecture
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
Leadership & commitment; Policy & strategic objectives; Legislation & regulation; Organization, responsibilities &r resources; Professional training & behaviors; Risk assessment & management; Planning & procedures; Contractor controls; Security; Emergency response; Performance management; Incident reporting & investigation; Audit; Management review
Minerals and rocks; Plate tectonics; Geological times; Weathering and erosion; Deposition; Diagenesis; Reservoirs; Structural geology and petroleum; Origin, migration, and trapping of petroleum
Coring and core analysis objectives; Coring hardware and maximizing core recovery; Core-handling, wellsite procedures, and preservation methods; Sidewall coring and analysis; Organizing effective laboratory programs; Porosity, permeability and fluid saturation; Quality control in core analysis; Petrography and mineralogy; Special core analysis sample selection and statistical data analysis; Core-log correlation (includes nmr log calibration, acoustic, nuclear, and electrical properties) an introduction to rock mechanics; Wettability, relative permeability, capillary pressure, and reservoir fluid distribution; Data integration in reservoir simulation; Final problem: design of coring and core analysis program
Pricing: natural gas, marker crudes, OPEC, spot and futures markets, transportation; Production rate: mathematical models; Cash flow: revenue, capital and operating costs, spreadsheet exercises; Economic evaluation: present value concepts, sensitivity and risk analysis, decision trees, royalty, sources of capital, incremental economics, sunk costs, inflation; Budgeting: examples and exercises, long-range planning; Cash versus write-off decision: depreciation, depletion, and amortization; How to read an annual report: statements, financial ratios, what is and is not included, reading between the lines; Worldwide business operations: concessions, licenses, production sharing contracts, joint ventures, cost of capital, sources of funding, debt and equity; Performance appraisal: buy/sell assessments; Computer economics software; Tips on format and inclusion of economic factors in computer spreadsheet analysis; Ethics in economic analyses
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.;...
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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.
Reservoir Engineering for Other Disciplines - REO
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