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  • Stability and Rock Deformation Models

    Contains 2 Component(s), Includes Credits

    Upon completing this assignment, the participant should be able to identify the presence and orientation of fracture systems in the reservoir and generate a stability and rock deformation model.

    Description:

    Upon completing this assignment, the participant should be able to identify the presence and orientation of fracture systems in the reservoir and generate a stability and rock deformation model.

    Duration:  8 hours

    Content:

    • Review of Core Data
    • Fracture Orientation
    • Review of Other Geologic Data



    0.8 CEUs offered.

    Members : USD 115.00

    Non-members : USD 150.00


  • Reservoir Drive Mechanisms

    Contains 2 Component(s), Includes Credits

    Upon completing this assignment, the participant should be able to identify primary reservoir drive mechanisms (solution gas drive, water drive, gas cap drive) by observing production and pressure trends, estimate original hydrocarbons in place, using both volumetric and material balance methods, develop a range of estimates for technical recovery factors and reserves, and identify and interpret production mechanisms to predict the behavior of oil, gas and gas condensate reservoirs.

    Description:

    Upon completing this assignment, the participant should be able to identify primary reservoir drive mechanisms (solution gas drive, water drive, gas cap drive) by observing production and pressure trends, estimate original hydrocarbons in place, using both volumetric and material balance methods, develop a range of estimates for technical recovery factors and reserves, and identify and interpret production mechanisms to predict the behavior of oil, gas and gas condensate reservoirs.

    Duration:  8 hours

    Content:

    • Volumetric Estimate of Hydrocarbon in Place
    • Material Balance Estimate of Hydrocarbon in Place



    0.8 CEUs offered.

    Members : USD 115.00

    Non-members : USD 150.00


  • Multidisciplinary Reservoir Management

    Contains 2 Component(s), Includes Credits

    The participant will be able to contribute to the efforts of a multidisciplinary reservoir management team, based on a general knowledge of related disciplines.

    Description:

    The participant will be able to contribute to the efforts of a multidisciplinary reservoir management team, based on a general knowledge of related disciplines. Upon completing this Learning Module assignment, the participant should also be able to demonstrate a basic knowledge of disciplines outside of reservoir engineering (i.e., Geology, Sedimentology, Petrophysics, Geophysics, etc.), establish a working relationship with specialists from these disciplines, and understand the role of different disciplines in the overall process of reservoir characterization and exploitation.

    Duration:  8 hours

    Content:

    • Review Reservoir Data
    • Review Role of Different E&P Disciplines



    0.8 CEUs offered.

    Members : USD 115.00

    Non-members : USD 150.00


  • Interdisciplinary Data Acquisition

    Contains 2 Component(s), Includes Credits

    Upon completing this Learning Module assignment, the participant should be able to access PDVSA engineering and geoscience databases and identify information that is relevant to the field under study as well as classify information according to discipline and what reservoir parameters it helps to define.

    Description:

    Gather, view, classify and validate the multidisciplinary information required for conducting integrated reservoir studies. Upon completing this Learning Module assignment, the participant should be able to access PDVSA engineering and geoscience databases and identify information that is relevant to the field under study as well as classify information according to discipline and what reservoir parameters it helps to define.

    Duration:  8 hours

    Content:

    • Objectives
    • Reservoir Data Sources and Applications



    0.8 CEUs offered.

    Members : USD 115.00

    Non-members : USD 150.00


  • Well Log Interpretation 2

    Contains 2 Component(s), Includes Credits

    Upon completing this course, the participant should be able to use log analysis to identify reservoir rock properties (fluid saturation, porosity, fluid contacts, permeabilities, bulk shale content, net oil sand, fractures).

    Description:

    Determine reservoir rock properties using well log analysis. Upon completing this course, the participant should be able to use log analysis to identify reservoir rock properties (fluid saturation, porosity, fluid contacts, permeabilities, bulk shale content, net oil sand, fractures).

    Duration:  8 hours

    Content:

    • Basic Log Interpretation



    0.8 CEUs offered.

    Members : USD 115.00

    Non-members : USD 150.00


  • Compaction and Subsidence

    Contains 2 Component(s), Includes Credits

    Upon completing this Learning Module assignment, the participant should be able to measure compaction, subsidence parameters, and determine the significance of these parameters with redetermining drive mechanisms, etc.

    Description:

    Upon completing this Learning Module assignment, the participant should be able to measure compaction, subsidence parameters, and determine the significance of these parameters with redetermining drive mechanisms, etc. The learner will also be able to analyze, calculate and validate compaction, subsidence and settling parameters to predict their influence on the behavior of the project and their impact on recovery, using the results of this analysis to optimize exploitation projects.

    Duration:  8 hours

    Content:

    • Compaction and Subsidence: Basic Concepts
    • Subsidence Prediction



    0.8 CEUs offered.

    Members : USD 115.00

    Non-members : USD 150.00


  • Pressure/Production Data Analysis

    Contains 2 Component(s), Includes Credits

    Upon completion of this module, the participant should be able to: review and acquire well test information, validate pressure test information, prepare well test data for analysis, diagnose and interpret the pressure test, design and interpret production records, and analyze production behavior.

    Description:

    Analyze and interpret pressure and production data for incorporation into the reservoir model. Upon completion of this module, the participant should be able to: review and acquire well test information, validate pressure test information, prepare well test data for analysis, diagnose and interpret the pressure test, design and interpret production records, and analyze production behavior. 

    Duration:  8 hours

    Content:

    Preparation of Well Test Data

    • Well Test Analysis--Part 1
    • Well Test Analysis--Part 2



    0.8 CEUs offered.

    Members : USD 115.00

    Non-members : USD 150.00


  • Flow Unit Determination

    Contains 2 Component(s), Includes Credits

    Upon completing this Learning Module assignment, the participant should be able to establish the areal and vertical distribution of zones with similar behavior in agreement with the reservoir model and identify and delineate the rock volumes with sedimentological, petrophysical and reservoir properties that enable hydraulic communication.

    Description:

    Upon completing this Learning Module assignment, the participant should be able to establish the areal and vertical distribution of zones with similar behavior in agreement with the reservoir model and identify and delineate the rock volumes with sedimentological, petrophysical and reservoir properties that enable hydraulic communication.

    Duration:  8 hours

    Content:

    Preparation of Well Test Data

    • Flow Unit Determination



    0.8 CEUs offered.

    Members : USD 115.00

    Non-members : USD 150.00


  • Reservoir Simulation

    Contains 2 Component(s), Includes Credits

    Upon completion of this module, the participant should be able to:define reservoir simulation objectives, define simulator geometry and dimensions, and assign flow equations to the proposed model, define simulator grid and boundary conditions, compile reservoir model input parameters, develop finite-difference approximations to solve the flow equations, plan numerical simulation computer runs and interpret the results, and use simulation results to determine the optimum exploitation scheme.

    Description:

    Apply analytical and numerical simulation techniques to the development, testing and refining of a reservoir model, and the generation of an optimal reservoir exploitation plan. Upon completion of this module, the participant should be able to:define reservoir simulation objectives, define simulator geometry and dimensions, and assign flow equations to the proposed model, define simulator grid and boundary conditions, compile reservoir model input parameters, develop finite-difference approximations to solve the flow equations, plan numerical simulation computer runs and interpret the results, and use simulation results to determine the optimum exploitation scheme. 

    Duration:  8 hours

    Content:

    Preparation of Well Test Data

    • Reservoir Models and Data Gathering
    • Flow Equations and Boundary Conditions
    • Solution to the Flow Equations (Simulation Process)
    • Interpretation of Simulation Results



    0.8 CEUs offered.

    Members : USD 115.00

    Non-members : USD 150.00


  • Data Acquisition

    Contains 2 Component(s), Includes Credits

    Upon completion of this module, the participant should be able to acquire and analyze pressure data, PVT reports, production records, injection records, production tests, fluid sampling, injectivity tests, and other information for the purpose of monitoring reservoir behavior.

    Description:

    Acquire and analyze the necessary data for optimizing reservoir surveillance. Upon completion of this module, the participant should be able to acquire and analyze pressure data, PVT reports, production records, injection records, production tests, fluid sampling, injectivity tests, and other information for the purpose of monitoring reservoir behavior.

    Duration:  8 hours

    Content:

    • Reservoir Description
    • Data Collection and Input
    • Future Planning and Day-to-Day Surveillance


    0.8 CEUs offered.

    Members : USD 115.00

    Non-members : USD 150.00