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GeoMark Research, Ltd.
Houston, Texas 77095
GeoMark Research, Ltd.
GeoMark in the E&P Cycle
⦿ Access to crucial subsurface data
RFDbase™: provides on demand global rock, fluid and PVT data
⦿ Source presence, quality, extent
• RFDbase™: provides source rock geochemistry for screening
• Rock Geochemistry: TOC & Pyrolysis analysis for source rock potential
• Oil Geochemistry: Infer source rock maturity and type from migrated hydrocarbons and seeps
⦿ Prove an active petroleum system
• Mud Gas Isotopes: demonstrate seals, fluid communication (compartmentalization), column heights, changes in gas composition and maturity
• Pressure Volume Temperature (PVT): Assessment of reservoir conditions and fluid behavior
• Petroleum System Modeling: Delivers a reconstruction of source rock burial, maturity and expulsion
⦿ Identify new plays within developed basin
• Petrophysics: Evaluation of well logs at all scales to quantify porosity, permeability, saturation, pressure, fluid connectivity, geomechanics, reservoir presence and quality. Real-time logging and coring programs (data collection)
⦿ Communication & compartmentalization
• PVT: Fluid properties and pressure data from reservoirs across separate wells
• Oil Geochemistry: HRGC and Biomarker analysis for correlation and communication
⦿ Hydrocarbon source and migration
• QQQ (GC- MS/MS): Enhanced Oil typing and maturity calibration for migration modeling
• CSIA: Genetically link known accumulations(both oil and gas) to understand the full extent of migration and preservation effects.
⦿ Reservoir and fluid volumes
• TruSat™: Mobile versus immobile fluid fractions & enhanced fluid and porosity measurements
• PVT: Identify fluid types and potential volumes within reservoirs
⦿ Volumetrics
• Petrophysics: Multi-scale hydrocarbon in place evaluation. Integration with engineering to include shrinkage correction and support for recovery factor estimation
⦿ Reservoir performance and EOS
• PVT: Understand the thermodynamic behavior of reservoir fluids
⦿ Reservoir Maintenance / Production allocation
• Time Lapse Geochemistry: Identify changes in produced fluid types throughout the lifecycle of production to predict performance
⦿ Fluid quality production trend analysis
• Oil Geochemistry: Predict well performance based on correlations to fluid properties
⦿ Identifying source of water contribution
• Water Isotopes: Characterize water type and fingerprint water samples to understand well drainage and Water/Oil ratios
• RFDbase™: Utilize formation water database to identify source(s) of water production
⦿ Identifying H2S contribution
• Gas Isotopes: Identify cause of H2S
⦿ Benchmarking of well performance
• RFDbase™: Access to geochemistry and PVT data to evaluate local or regional trends that may contribute to well performance
⦿ Liability and HSE protection
• Oil Geochemistry: Fingerprint and catalogue produced fluids for protection against future remediation requirements.
Exploration/New Ventures
⦿ Access to crucial subsurface data
RFDbase™: provides on demand global rock, fluid and PVT data
⦿ Source presence, quality, extent
• RFDbase™: provides source rock geochemistry for screening
• Rock Geochemistry: TOC & Pyrolysis analysis for source rock potential
• Oil Geochemistry: Infer source rock maturity and type from migrated hydrocarbons and seeps
⦿ Prove an active petroleum system
• Mud Gas Isotopes: demonstrate seals, fluid communication (compartmentalization), column heights, changes in gas composition and maturity
• Pressure Volume Temperature (PVT): Assessment of reservoir conditions and fluid behavior
• Petroleum System Modeling: Delivers a reconstruction of source rock burial, maturity and expulsion
⦿ Identify new plays within developed basin
• Petrophysics: Evaluation of well logs at all scales to quantify porosity, permeability, saturation, pressure, fluid connectivity, geomechanics, reservoir presence and quality. Real-time logging and coring programs (data collection)
Appraisal/Development
⦿ Communication & compartmentalization
• PVT: Fluid properties and pressure data from reservoirs across separate wells
• Oil Geochemistry: HRGC and Biomarker analysis for correlation and communication
⦿ Hydrocarbon source and migration
• QQQ (GC- MS/MS): Enhanced Oil typing and maturity calibration for migration modeling
• CSIA: Genetically link known accumulations(both oil and gas) to understand the full extent of migration and preservation effects.
⦿ Reservoir and fluid volumes
• TruSat™: Mobile versus immobile fluid fractions & enhanced fluid and porosity measurements
• PVT: Identify fluid types and potential volumes within reservoirs
⦿ Volumetrics
• Petrophysics: Multi-scale hydrocarbon in place evaluation. Integration with engineering to include shrinkage correction and support for recovery factor estimation
⦿ Reservoir performance and EOS
• PVT: Understand the thermodynamic behavior of reservoir fluids
Production/Decommissioning
⦿ Reservoir Maintenance / Production allocation
• Time Lapse Geochemistry: Identify changes in produced fluid types throughout the lifecycle of production to predict performance
⦿ Fluid quality production trend analysis
• Oil Geochemistry: Predict well performance based on correlations to fluid properties
⦿ Identifying source of water contribution
• Water Isotopes: Characterize water type and fingerprint water samples to understand well drainage and Water/Oil ratios
• RFDbase™: Utilize formation water database to identify source(s) of water production
⦿ Identifying H2S contribution
• Gas Isotopes: Identify cause of H2S
⦿ Benchmarking of well performance
• RFDbase™: Access to geochemistry and PVT data to evaluate local or regional trends that may contribute to well performance
⦿ Liability and HSE protection
• Oil Geochemistry: Fingerprint and catalogue produced fluids for protection against future remediation requirements.
Exploration/New Ventures
⦿ Access to crucial subsurface data
RFDbase™: provides on demand global rock, fluid and PVT data
⦿ Source presence, quality, extent
• RFDbase™: provides source rock geochemistry for screening
• Rock Geochemistry: TOC & Pyrolysis analysis for source rock potential
• Oil Geochemistry: Infer source rock maturity and type from migrated hydrocarbons and seeps
⦿ Prove an active petroleum system
• Mud Gas Isotopes: demonstrate seals, fluid communication (compartmentalization), column heights, changes in gas composition and maturity
• Pressure Volume Temperature (PVT): Assessment of reservoir conditions and fluid behavior
• Petroleum System Modeling: Delivers a reconstruction of source rock burial, maturity and expulsion
⦿ Identify new plays within developed basin
• Petrophysics: Evaluation of well logs at all scales to quantify porosity, permeability, saturation, pressure, fluid connectivity, geomechanics, reservoir presence and quality. Real-time logging and coring programs (data collection)
Appraisal/Development
⦿ Communication & compartmentalization
• PVT: Fluid properties and pressure data from reservoirs across separate wells
• Oil Geochemistry: HRGC and Biomarker analysis for correlation and communication
⦿ Hydrocarbon source and migration
• QQQ (GC- MS/MS): Enhanced Oil typing and maturity calibration for migration modeling
• CSIA: Genetically link known accumulations(both oil and gas) to understand the full extent of migration and preservation effects.
⦿ Reservoir and fluid volumes
• TruSat™: Mobile versus immobile fluid fractions & enhanced fluid and porosity measurements
• PVT: Identify fluid types and potential volumes within reservoirs
⦿ Volumetrics
• Petrophysics: Multi-scale hydrocarbon in place evaluation. Integration with engineering to include shrinkage correction and support for recovery factor estimation
⦿ Reservoir performance and EOS
• PVT: Understand the thermodynamic behavior of reservoir fluids
Production/Decommissioning
⦿ Reservoir Maintenance / Production allocation
• Time Lapse Geochemistry: Identify changes in produced fluid types throughout the lifecycle of production to predict performance
⦿ Fluid quality production trend analysis
• Oil Geochemistry: Predict well performance based on correlations to fluid properties
⦿ Identifying source of water contribution
• Water Isotopes: Characterize water type and fingerprint water samples to understand well drainage and Water/Oil ratios
• RFDbase™: Utilize formation water database to identify source(s) of water production
⦿ Identifying H2S contribution
• Gas Isotopes: Identify cause of H2S
⦿ Benchmarking of well performance
• RFDbase™: Access to geochemistry and PVT data to evaluate local or regional trends that may contribute to well performance
⦿ Liability and HSE protection
• Oil Geochemistry: Fingerprint and catalogue produced fluids for protection against future remediation requirements.
