Semester 1: Foundation in Basic Sciences (Focus: Building engineering basics)
Subject
Chapters/Topics
Brief Description
Engineering Mathematics I
1. Differential Calculus (Taylor's series, maxima/minima).
2. Integral Calculus (multiple integrals, applications).
3. Vector Calculus (gradient, divergence, curl).
4. Ordinary Differential Equations (initial value problems).
Provides mathematical tools for modeling fluid flow and reservoir simulations in petroleum contexts. Emphasizes problem-solving for engineering applications.
Engineering Physics
1. Mechanics (laws of motion, friction).
2. Waves and Optics (interference, diffraction).
3. Thermal Physics (thermodynamics laws).
4. Modern Physics (quantum basics).
Introduces physical principles underlying drilling mechanics and seismic wave propagation in exploration.
Engineering Chemistry
1. Atomic Structure and Bonding.
2. Thermodynamics and Kinetics.
3. Organic Chemistry (hydrocarbons).
4. Electrochemistry.
Covers chemical reactions in refining processes and corrosion in pipelines.
Basic Electrical Engineering
1. DC Circuits and Networks.
2. AC Circuits (phasors, power).
3. Electrical Machines (motors, generators).
Basics for electrical systems in drilling rigs and production equipment.
Engineering Graphics
1. Projections and Isometric Views.
2. Sections and Development of Surfaces
Technical drawing for designing well structures and equipment.
Labs
Physics/Chemistry Labs, Workshop Practice.
Hands-on experiments in basic measurements and material testing.
Semester 2: Advanced Foundations (Focus: Engineering Mechanics and Computing)
Engineering Mathematics II
1. Partial Differential Equations (wave/heat equations).
2. Complex Variables (analytic functions).
3. Laplace Transforms.
4. Fourier Series/Analysis.
Advanced tools for solving heat transfer in reservoirs and signal processing in seismic data.
Engineering Mechanics
1. Statics (equilibrium, trusses).
2. Dynamics (kinematics, kinetics).
3. Friction and Centroids.
Applies to stability analysis of offshore platforms and rig design.
Basic Mechanical Engineering
1. Thermodynamics (cycles, laws).
2. Fluid Mechanics (properties, flow).
3. Machine Elements (gears, bearings).
Fundamentals for pumps, compressors, and fluid flow in wells.
Computer Programming
1. Ecosystems and Biodiversity.
2. Pollution and Control.
3. Sustainable Development.
Introduces HSE (Health, Safety, Environment) principles for oil spill management.
Labs
Mechanics Lab, Programming Lab.
Practical coding and force analysis experiments.
Semester 3: Introduction to Petroleum Basics (Focus: Geology and Exploration)
Petroleum Geology
1. Origin and Accumulation of Petroleum.
2. Sedimentary Rocks and Structures.
3. Stratigraphy and Basin Analysis.
4. Reservoir Rocks and Fluids.
Explores geological formations where hydrocarbons trap, essential for site selection in exploration.
Fluid Mechanics
1. Fluid Properties and Statics
2. Kinematics and Dynamics of Flow.
3. Dimensional Analysis.
4. Flow in Pipes and Open Channels.
Models fluid behavior in reservoirs and drilling mud circulation.
Engineering Mathematics III
1. Numerical Methods (interpolation, integration).
2. Linear Algebra (matrices, eigenvalues).
3. Interpolation and Approximation.
Numerical solutions for pressure transient analysis in wells.
Surveying
1. Chain and Compass Surveying.
2. Leveling and Contouring.
3. Theodolite and Tacheometry.
Techniques for mapping exploration sites and offshore structures
Introduction to Petroleum Engineering
1. Overview of Oil/Gas Industry.
2. Upstream/Downstream Processes.
3. Drilling Basics.
Broad intro to the petroleum value chain, from exploration to refining.
Labs
Fluid Mechanics Lab, Surveying Practice.
Viscosity measurements and field surveying simulations.
Semester 4: Core Drilling and Production (Focus: Drilling Techniques)
Drilling Engineering
1. Drilling Fluids and Additives.
2. Rotary Drilling Equipment.
3. Drill Bit Design and Hydraulics.
4. Well Control and Casing.
Details rotary systems, mud properties, and blowout prevention for safe well boring.
Reservoir Engineering I
1. Rock and Fluid Properties.
2. Reservoir Drive Mechanisms.
3. Material Balance Equations.
4. Decline Curve Analysis.
Analyzes how reservoirs store and release hydrocarbons, predicting production rates.
Thermodynamics
1. First/Second Laws.
2. Entropy and Availability.
3. Phase Equilibria.
4. Thermodynamic Cycles.
Applies to gas processing and heat exchangers in refineries.
Geophysics
1. Seismic Methods.
2. Gravity and Magnetic Surveys.
3. Well Logging Basics.
Non-invasive techniques for detecting subsurface oil traps.
Strength of Materials
1. Stress/Strain Analysis.
2. Torsion and Bending.
3. Columns and Beams.
Material strength for pipeline and rig design under pressure.
Labs
Drilling Fluids Lab, Rock Properties Lab.
Mud rheology testing and core sample analysis.
Semester 5: Advanced Reservoir and Production (Focus: Recovery Optimization)
Reservoir Engineering II
1. Immiscible Displacement.
2. Well Testing (pressure buildup).
3. Multiphase Flow.
4. Reservoir Simulation Basics.
Advanced modeling for estimating recoverable oil and optimizing injection.
Production Engineering I
1. Well Completions.
2. Artificial Lift Methods.
3. Flow Assurance (wax, hydrate control).
4. Sand Control.
Techniques to enhance flow from wells, including pumps and separators.
Heat Transfer
1. Conduction and Convection.
2. Radiation.
3. Heat Exchangers.
4. Boiling and Condensation.
Heat management in thermal recovery methods like steam injection.
1. Seismic Interpretation.
2. Remote Sensing.
3. Geological Mapping.
Petroleum Exploration Methods
Integrated exploration strategies combining data for prospect evaluation.
Elective I (e.g., Well Logging)
1. Logging Tools (resistivity, porosity).
2. Formation Evaluation.
Interpreting downhole data to assess reservoir quality.
Labs
Reservoir Simulation Lab, Production Lab.
Software-based flow simulations and lift system models.
Semester 6: Refining and Economics (Focus: Downstream Processes)
Petroleum Refinery Engineering
1. Crude Distillation.
2. Cracking and Reforming.
3. Hydrotreating.
4. Petrochemicals.
Processes to convert crude into fuels, lubricants, and chemicals.
Production Engineering II
1. Multiphase Flow in Wells.
2. Design of Surface Facilities.
3. Enhanced Oil Recovery (EOR)
Scaling up production with water/gas injection for mature fields.
Pipeline Engineering
1. Pipeline Design and Materials.
2. Hydraulics and Sizing.
3. Corrosion and Pigging.
4. Offshore Pipelines.
Safe transport of oil/gas over long distances, minimizing leaks.
Process Control
1. Instrumentation.
2. Control Systems (PID).
3. Process Dynamics.
Automation for stable refinery operations and safety.
Elective II (e.g., Natural Gas Engineering)
1. Gas Processing (sweetening, dehydration).
2. LNG Technology.
Handling and monetizing natural gas reserves.
Labs
Refinery Simulation Lab, Pipeline Hydraulics Lab.
Distillation unit operations and flow assurance experiments.
Semester 7: Advanced Topics and Projects (Focus: Integration and Specialization)
Petroleum Economics
1. Cost Estimation.
2. Cash Flow Analysis (NPV, IRR).
3. Risk and Uncertainty.
4. Project Evaluation.
Economic viability of fields, including fiscal regimes and reserves valuation.
Offshore Drilling and Production
1. Platform Types.
2. Subsea Systems.
3. Deepwater Challenges.
Engineering for marine environments, including jack-ups and FPSOs.
Health, Safety, and Environment (HSE)
1. Risk Assessment.
2. Hazard Identification.
3. Environmental Impact.
Compliance with regulations for sustainable operations and emergency response.
Elective III (e.g., Formation Evaluation)
1. Core Analysis.
2. Petrophysics.
Detailed log interpretation for reserve estimation.
Industrial Training/Project
N/A
6-8 week field internship; mini-project on real-world problems.
Semester 8: Capstone and Emerging Tech (Focus: Innovation and Professional Practice)
Major Project
N/A
Industry-sponsored research on topics like CO2 sequestration or digital twins for reservoirs.
Seminar
Literature Review and Presentation.
Students present on current trends like AI in drilling or renewables transition.
Elective IV (e.g., Enhanced Oil Recovery)
1. Thermal EOR.
2. Chemical/Miscible Methods.
3. CO2 Injection.
Advanced techniques to boost recovery from 30-50% to higher rates.
Professional Practice
1. Contracts and Ethics.
2. Management in Oil Industry.
Career skills, including soft skills and industry ethics.
Comprehensive Viva
N/A
Oral exam on entire curriculum.