Classification of reservoir flow system.pptx

JawadMajeed1 0 views 26 slides Oct 12, 2025

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Reservoir management and segmentation

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Classification of reservoir fow system Prof. Dr. Abdul Majeed Petroleum and Gas Engineeirng department Dawood university of Engineeirng & Technology, Karachi

CLO Bloom’s Level Mapped PLO(s) CLO 1: Explain the fundamental concepts of reservoir rock and fluid properties. Understand PLO 1 – Engineering Knowledge (apply knowledge of mathematics, science, engineering fundamentals). CLO 2: Apply Darcy’s law and principles of fluid flow in porous media to solve problems. Apply PLO 2 – Problem Analysis, PLO 1 – Engineering Knowledge CLO 3: Formulate and utilize material balance equations for hydrocarbons in place and reservoir performance. Apply / Analyze PLO 2 – Problem Analysis, PLO 3 – Design/Development of Solutions CLO 4: Analyze pressure-transient and decline-curve data for reservoir characterization and forecasting. Analyze PLO 2 – Problem Analysis, PLO 4 – Investigation CLO 5: Differentiate and evaluate reservoir drive mechanisms and their effect on recovery. Analyze / Evaluate PLO 2 – Problem Analysis, PLO 4 – Investigation, PLO 3 – Design/Development of Solutions CLO 6: Design primary recovery strategies considering reservoir rock-fluid interactions. Create PLO 3 – Design/Development of Solutions, PLO 5 – Modern Tool Usage CLO 7: Integrate geological, petrophysical, and engineering data for reservoir performance assessment. Evaluate / Create PLO 4 – Investigation, PLO 3 – Design/Development of Solutions, PLO 5 – Modern Tool Usage CLO 8: Demonstrate problem-solving and decision-making skills using reservoir engineering tools/software. Apply / Evaluate PLO 5 – Modern Tool Usage, PLO 9 – Individual & Team Work, PLO 10 – Communication

Course Learning Outcomes (CLOs) with Bloom’s Taxonomy Explain the fundamental concepts of reservoir rock and fluid properties relevant to hydrocarbon storage and flow. Bloom’s Level: Understand Apply Darcy’s law and principles of fluid flow in porous media to solve practical reservoir engineering problems. Bloom’s Level: Apply Formulate and utilize material balance equations to estimate hydrocarbons initially in place and predict reservoir performance. Bloom’s Level: Apply / Analyze Analyze pressure-transient and decline-curve data for reservoir characterization and production forecasting. Bloom’s Level: Analyze Differentiate and evaluate reservoir drive mechanisms (solution gas drive, gas cap drive, water drive, compaction drive) and their effect on recovery efficiency. Bloom’s Level: Analyze / Evaluate Design primary recovery strategies considering reservoir rock-fluid interactions and production constraints. Bloom’s Level: Create Integrate geological, petrophysical, and engineering data to assess reservoir performance and recovery potential. Bloom’s Level: Evaluate / Create Demonstrate problem-solving and decision-making skills using reservoir engineering tools, equations, and software for real-world cases. Bloom’s Level: Apply / Evaluate