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Course Name:
Modern Well Test Analysis
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Course Objective :
1. Analyze all pressure transient tests which are commonly used by petroleum industry that cover oil and gas reservoirs, fractured and non-fractured reservoirs, homogenous and heterogeneous reservoirs, multilayered wells with and without cross flow, production and injection wells, and vertical, slanted, and horizontal wells.
2. Design pressure transient tests to achieve specific test objectives with high accuracy.
3. Use of pressure data in reservoir characterization and understanding the reservoir performance.
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Course Name:
Applied Reservoir Engineering
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Course Objective :
1. Obtain from laboratory tests or correlations valid reservoir rock and fluid properties for use in reservoir engineering calculations.
2. Analyze the qualitative and quantitative aspects of rock and fluid property behavior at both reservoir and surface conditions.
3. Use the pressure data to understand the reservoir/well performance.
4. Recognize the characteristics of primary reservoir mechanisms and apply the appropriate material balance, fluid displacement and water influx equations to predict future reservoir performance.
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Course Name:
Basic Reservoir Engineering
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Course Objective :
The intent of Basic Reservoir Engineering is development of a more complete “understanding” of the characteristics of oil and gas reservoirs, from fluid and rock characteristics through reservoir definition, delineation, classification, development plan, and production. Data collection, integration and application directed toward maximizing recovery are stressed. Basic reservoir engineering equations are introduced with emphasis directed to parameter significance and an understanding of the results
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Course Name:
Basic Well Test Analysis
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Course Objective :
The course emphasizes the practical application of well test theory to the solution of real well testing problems from design through interpretation for oil, gas and water injection wells. Participants will be introduced to a systematic approach to well test analysis and will apply it using modern well test analysis software. Numerous data sets with non-ideal behavior will be reviewed and analyzed to allow participants to gain experience with real world problems. Participants will be able to apply their newly acquired skills in their job assignments immediately upon course completion.
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Course Name:
Formation Damage, Causes and Prevention
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Course Objective :
Commonly encountered formation damage processes, their operating mechanisms, theoretical bases, and parameters; procedures for diagnosis, measurement, and remediation of formation damage; prediction and simulation models, and model-assisted analysis of laboratory and field data.
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Course Name:
Hydraulic Fracturing
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Course Objective :
• Design hydraulic fracture treatments for typical field situations
• Apply the concepts of well stimulation by hydraulic fracturing to various types of reservoir conditions to optimize well productivity
• Recognize opportunities for substantial production improvement by application of effective hydraulic fracturing
• Gather pertinent well data and information to plan, design, implement, and evaluate fracturing treatments for all types of reservoirs
• Realize the strengths and limitations of hydraulic fracture theory as it relates to field applications of fracturing
• Become a participant in each fracturing treatment rather than just a technical observer
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Course Name:
Production optimization using NODAL analysis
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Course Objective :
• Apply NODAL™ analysis concepts viewing the total producing system as a whole from the reservoir rock through the completion, well bore and gathering system, to the market while honoring system rate/pressure constraints
• Avoid improper design where any one component, or a mismatch of components, adversely affects the performance of the entire system
• Perform a system-wide analysis to increase well rates by identifying bottlenecks and design an efficient field-wide flow system, including wells, artificial lift, gathering lines and manifolds
• Use NODAL™ analysis, together with reservoir simulation and analytical tools, for planning new field development
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Course Name:
PVT Analysis & Equation of State for Compositional Simulation
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Course Objective :
Obtain from laboratory tests or correlations valid reservoir fluid properties for use in reservoir and production engineering calculations, and analyze the qualitative and quantitative aspects of fluid properties, more over, make use of the fluid properties in understanding the reservoir performance.
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Course Name:
Reservoir Characterization
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Course Objective :
The modern team approach to reservoir characterization describes productive zones more reliably through the integration of disciplines, technology and data. Increase your proven reserves, discover by-passed pay, reduce development time and costs, improve production rates, and rejuvenate old fields through the skills learned in this course. The models developed during the course are based on the application of state-of-the-art technical applications within the framework of a multi-disciplinary team approach. The course is process-based and focuses upon:
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Course Name:
Reservoir Management
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Course Objective :
The principles of sound reservoir management are presented with emphasis on practical applications. The significance of each component and the importance of timing and cost/benefit analysis are emphasized. Reservoir management models for optimum field development and field operating plans are analyzed. The interdisciplinary reservoir management approach shows how each technology or function contributes to the plan and how checks and balances are developed.
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