Formation Damage: Causes, Prevention, and Remediation - FD

Course

In San Francisco (USA)

Price on request

Description

  • Type

    Course

  • Location

    San francisco (USA)

  • Start date

    Different dates available

Capillary pressure applications in reservoir characterization; Rock properties from mercury/air capillary pressures; Capillary pressure data representativeness; Capillary forces in reservoir rocks; their measurement; Capillary pressure data fitting methods; Representing a large number of capillary curves (averaging); Permeability from capillary pressure curves and petrography; Saturation-height functions; Surface phenomena, capillarity, wettability, and interphase tension; The competition between capillary and gravity forces; Relationships between initial and residual saturations; Interpretation of single and multiple pore system rocks; Clay-bound water; Capillary pressure vs. NMR; Seal capacity

Facilities

Location

Start date

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

Start date

Different dates availableEnrolment now open

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Subjects

  • IT Development
  • Gas
  • Systems
  • Appraisal
  • Production
  • Interpretation
  • Heat Transfer
  • GPS
  • Thermodynamics
  • Satellite
  • Workflow
  • Basic IT
  • Oil and Gas
  • Natural Gas
  • Global
  • Evaluation
  • Refrigeration
  • Technology
  • Secondary
  • Basic
  • Performance
  • Basic IT training

Course programme

Training Course Content

Capillary pressure applications in reservoir characterization; Rock properties from mercury/air capillary pressures; Capillary pressure data representativeness; Capillary forces in reservoir rocks; their measurement; Capillary pressure data fitting methods; Representing a large number of capillary curves (averaging); Permeability from capillary pressure curves and petrography; Saturation-height functions; Surface phenomena, capillarity, wettability, and interphase tension; The competition between capillary and gravity forces; Relationships between initial and residual saturations; Interpretation of single and multiple pore system rocks; Clay-bound water; Capillary pressure vs. NMR; Seal capacity

Geologic characteristics that impact field development; Appraisal: Determining recoverable hydrocarbons; Reservoir fluid properties and saturation; Influence of capillarity on hydrocarbon distribution and fluid contacts; Reserve and resource evaluation; Volumetric reserve estimation and calculation; Stratigraphic influence on field production; Depositional and digenetic controls on reservoir rock, barriers, and hydrocarbon distribution; Describing reservoir rock to understand reservoir behavior in carbonate and clastic rocks; Determining if hydrocarbons can be recovered from in a given field, what is pay; The impact of drive mechanism: aquifer characterization, distribution, and mapping; Seismic applications in appraisal and development; Development drilling: How to optimize hydrocarbon recovery; Economic impact on field development; Subdividing the reservoir into working units; Reservoir pore space configurations and mapping; Building a static reservoir model using deterministic and stochastic techniques; Key factors affecting the development of Fractured Reservoirs; Steps in building a geologic reservoir model; Impact on barriers on field development; Secondary and tertiary field development; Rejuvenating mature and marginal fields

Basic gas technology principles; Water-hydrocarbon system behavior; Hydrates; Thermodynamics of LNG processes; Separation equipment; Gas treatment, CO2 and H2S removal; Dehydration of natural gas; Heat transfer and exchangers; Pumps and compressors; Refrigeration systems; LNG liquefaction technologies; Fractionation and adsorption; Course summary and overview

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

Overview of upstream oil and gas production operations; Overview of reservoirs and well inflow performance; Overview of artificial lift; Processing configurations (example PFD's); Fluid compositions, properties and phase behavior; Phase separation of gas, oil, and water; Emulsions; Sand, wax, and asphaltenes; Oil treating; Field desalting; Crude stabilization and sweetening; Crude oil storage and vapor recovery; Measurement of crude oil; Transportation of crude oil; Produced water treating; Compressors; Water injection systems; Relief and flare systems; Overview of solution gas processing

Capillary pressure applications in reservoir characterization; Rock properties from mercury/air capillary pressures; Capillary pressure data representativeness; Capillary forces in reservoir rocks; their measurement; Capillary pressure data fitting methods; Representing a large number of capillary curves (averaging); Permeability from capillary pressure curves and petrography; Saturation-height functions; Surface phenomena, capillarity, wettability, and interphase tension; The competition between capillary and gravity forces; Relationships between initial and residual saturations; Interpretation of single and multiple pore system rocks; Clay-bound water; Capillary pressure vs. NMR; Seal capacity

Geologic characteristics that impact field development; Appraisal: Determining recoverable hydrocarbons; Reservoir fluid properties and saturation; Influence of capillarity on hydrocarbon distribution and fluid contacts; Reserve and resource evaluation; Volumetric reserve estimation and calculation; Stratigraphic influence on field production; Depositional and digenetic controls on reservoir rock, barriers, and hydrocarbon distribution; Describing reservoir rock to understand reservoir behavior in carbonate and clastic rocks; Determining if hydrocarbons can be recovered from in a given field, what is pay; The impact of drive mechanism: aquifer characterization, distribution, and mapping; Seismic applications in appraisal and development; Development drilling: How to optimize hydrocarbon recovery; Economic impact on field development; Subdividing the reservoir into working units; Reservoir pore space configurations and mapping; Building a static reservoir model using deterministic and stochastic techniques; Key factors affecting the development of Fractured Reservoirs; Steps in building a geologic reservoir model; Impact on barriers on field development; Secondary and tertiary field development; Rejuvenating mature and marginal fields

Basic gas technology principles; Water-hydrocarbon system behavior; Hydrates; Thermodynamics of LNG processes; Separation equipment; Gas treatment, CO2 and H2S removal; Dehydration of natural gas; Heat transfer and exchangers; Pumps and compressors; Refrigeration systems; LNG liquefaction technologies; Fractionation and adsorption; Course summary and overview

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

Overview of upstream oil and gas production operations; Overview of reservoirs and well inflow performance; Overview of artificial lift; Processing configurations (example PFD's); Fluid compositions, properties and phase behavior; Phase separation of gas, oil, and water; Emulsions; Sand, wax, and asphaltenes; Oil treating; Field desalting; Crude stabilization and sweetening; Crude oil storage and vapor recovery; Measurement of crude oil; Transportation of crude oil; Produced water treating; Compressors; Water injection systems; Relief and flare systems; Overview of solution gas processing

Capillary pressure applications in reservoir characterization; Rock properties from mercury/air capillary pressures; Capillary pressure data representativeness; Capillary forces in reservoir rocks; their measurement; Capillary pressure data fitting methods; Representing a large number of capillary curves (averaging); Permeability from capillary pressure curves and petrography; Saturation-height functions; Surface phenomena, capillarity, wettability, and interphase tension; The competition between capillary and gravity forces; Relationships between initial and residual saturations; Interpretation of single and multiple pore system rocks; Clay-bound water; Capillary pressure vs. NMR; Seal capacity

Geologic characteristics that impact field development; Appraisal: Determining recoverable hydrocarbons; Reservoir fluid properties and saturation; Influence of capillarity on hydrocarbon distribution and fluid contacts; Reserve and resource evaluation; Volumetric reserve estimation and calculation; Stratigraphic influence on field production; Depositional and digenetic controls on reservoir rock, barriers, and hydrocarbon distribution; Describing reservoir rock to understand reservoir behavior in carbonate and clastic rocks; Determining if hydrocarbons can be recovered from in a given field, what is pay; The impact of drive mechanism: aquifer characterization, distribution, and mapping; Seismic applications in appraisal and development; Development drilling: How to optimize hydrocarbon recovery; Economic impact on field development; Subdividing the reservoir into working units; Reservoir pore space configurations and mapping; Building a static reservoir model using deterministic and stochastic techniques; Key factors affecting the development of Fractured Reservoirs; Steps in building a geologic reservoir model; Impact on barriers on field development; Secondary and tertiary field development; Rejuvenating mature and marginal fields

Basic gas technology principles; Water-hydrocarbon system behavior; Hydrates; Thermodynamics of LNG processes; Separation equipment; Gas treatment, CO2 and H2S removal; Dehydration of natural gas; Heat transfer and exchangers; Pumps and compressors; Refrigeration systems; LNG liquefaction technologies; Fractionation and adsorption; Course summary and overview

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

Overview of upstream oil and gas production operations; Overview of reservoirs and well inflow performance; Overview of artificial lift; Processing configurations (example PFD's); Fluid compositions, properties and phase behavior; Phase separation of gas, oil, and water; Emulsions; Sand, wax, and asphaltenes; Oil treating; Field desalting; Crude stabilization and sweetening; Crude oil storage and vapor recovery; Measurement of crude oil; Transportation of crude oil; Produced water treating; Compressors; Water injection systems; Relief and flare systems; Overview of solution gas processing

Capillary pressure applications in reservoir characterization; Rock properties from mercury/air capillary pressures; Capillary pressure data representativeness; Capillary forces in reservoir rocks; their measurement; Capillary pressure data fitting methods; Representing a large number of capillary curves (averaging); Permeability from capillary pressure curves and petrography; Saturation-height functions; Surface phenomena, capillarity, wettability, and interphase tension; The competition between capillary and gravity forces; Relationships between initial and residual saturations; Interpretation of single and multiple pore system rocks; Clay-bound water; Capillary pressure vs. NMR; Seal capacity

Geologic characteristics that impact field development; Appraisal: Determining recoverable hydrocarbons; Reservoir fluid properties and saturation; Influence of capillarity on hydrocarbon distribution and fluid contacts; Reserve and resource evaluation; Volumetric reserve estimation and calculation; Stratigraphic influence on field production; Depositional and digenetic controls on reservoir rock, barriers, and hydrocarbon distribution; Describing reservoir rock to understand reservoir behavior in carbonate and clastic rocks; Determining if hydrocarbons can be recovered from in a given field, what is pay; The impact of drive mechanism: aquifer characterization, distribution, and mapping; Seismic applications in appraisal and development; Development drilling: How to optimize hydrocarbon recovery; Economic impact on field development; Subdividing the reservoir into working units; Reservoir pore space configurations and mapping; Building a static reservoir model using deterministic and stochastic techniques; Key factors affecting the development of Fractured Reservoirs; Steps in building a geologic reservoir model; Impact on barriers on field development; Secondary and tertiary field development; Rejuvenating mature and marginal fields

Basic gas technology principles; Water-hydrocarbon system behavior; Hydrates; Thermodynamics of LNG processes; Separation equipment; Gas treatment, CO2 and H2S removal; Dehydration of natural gas; Heat transfer and exchangers; Pumps and compressors; Refrigeration systems; LNG liquefaction technologies; Fractionation and adsorption; Course summary and overview

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

Overview of upstream oil and gas production operations; Overview of reservoirs and well inflow performance; Overview of artificial lift; Processing configurations (example PFD's); Fluid compositions, properties and phase behavior; Phase separation of gas, oil, and water; Emulsions; Sand, wax, and asphaltenes; Oil treating; Field desalting; Crude stabilization and sweetening; Crude oil storage and vapor recovery; Measurement of crude oil; Transportation of crude oil; Produced water treating; Compressors; Water injection systems; Relief and flare systems; Overview of solution gas processing

Capillary pressure applications in reservoir characterization; Rock properties from mercury/air capillary pressures; Capillary pressure data representativeness; Capillary forces in reservoir rocks; their measurement; Capillary pressure data fitting methods; Representing a large number of capillary curves (averaging); Permeability from capillary pressure curves and petrography; Saturation-height functions; Surface phenomena, capillarity, wettability, and interphase tension; The competition between capillary and gravity forces; Relationships between initial and residual saturations; Interpretation of single and multiple pore system rocks; Clay-bound water; Capillary pressure vs. NMR; Seal capacity

Geologic characteristics that impact field development; Appraisal: Determining recoverable hydrocarbons; Reservoir fluid properties and saturation; Influence of capillarity on hydrocarbon distribution and fluid contacts; Reserve and resource evaluation; Volumetric reserve estimation and calculation; Stratigraphic influence on field production; Depositional and digenetic controls on reservoir rock, barriers, and hydrocarbon distribution; Describing reservoir rock to understand reservoir behavior in carbonate and clastic rocks; Determining if hydrocarbons can be recovered from in a given field, what is pay; The impact of drive mechanism: aquifer characterization, distribution, and mapping; Seismic applications in appraisal and development; Development drilling: How to optimize hydrocarbon recovery; Economic impact on field development; Subdividing the reservoir into working units; Reservoir pore space configurations and mapping; Building a static reservoir model using deterministic and stochastic techniques; Key factors affecting the development of Fractured Reservoirs; Steps in building a geologic reservoir model; Impact on barriers on field development; Secondary and tertiary field development; Rejuvenating mature and marginal fields

Basic gas technology principles; Water-hydrocarbon system behavior; Hydrates; Thermodynamics of LNG processes; Separation equipment; Gas treatment, CO2 and H2S removal; Dehydration of natural gas; Heat transfer and exchangers; Pumps and compressors; Refrigeration systems; LNG liquefaction technologies; Fractionation and adsorption; Course summary and overview

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

Overview of upstream oil and gas production operations; Overview of reservoirs and well inflow performance; Overview of artificial lift; Processing configurations (example PFD's); Fluid compositions, properties and phase behavior; Phase separation of gas, oil, and water; Emulsions; Sand, wax, and asphaltenes; Oil treating; Field desalting; Crude stabilization and sweetening; Crude oil storage and vapor recovery; Measurement of crude oil; Transportation of crude oil; Produced water treating; Compressors; Water injection systems; Relief and flare systems; Overview of solution gas processing

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In-house training

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Formation Damage: Causes, Prevention, and Remediation - FD

Price on request