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Masters in Aerospace Analysis Course — Pumo Technovation
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Masters in Aerospace Analysis

Total Number of Modules6
Total Number of Topics38
Estimated Duration177:00 H

Module 1 – JavaFoil

  • Introduction to Airfoil Analysis – Aerodynamic Fundamentals, Lift, Drag, Reynolds Number, Airfoil Terminologies60 Mins
  • JavaFoil Interface & Workflow – Airfoil Import, Airfoil Generation, Analysis Setup60 Mins
  • Airfoil Performance Analysis – Lift Coefficient, Drag Coefficient, Pressure Distribution, Cp Curves120 Mins
  • Comparative Airfoil Study – NACA Airfoil Comparison and Performance Validation120 Mins
  • Airfoil Optimization Study – Airfoil Shape Refinement and Performance Improvement120 Mins
  • JavaFoil Tool Test – Airfoil Analysis and Reporting Assessment120 Mins

Module 2 – XFLR5

  • Introduction to XFLR5 – Interface and Workflow60 Mins
  • 2D Airfoil Analysis – Polar Generation, Reynolds Number Studies, Stability Analysis120 Mins
  • 3D Wing Analysis – Wing Planform, Wing Loading, Aerodynamic Performance240 Mins
  • Stability & Control Analysis – Aircraft Stability, Control Surface Effectiveness120 Mins
  • UAV Aerodynamic Studies – Aerodynamic Evaluation of UAV Wing Configurations120 Mins
  • Performance Comparison Studies – Comparative Aerodynamic Validation Studies120 Mins
  • XFLR5 Tool Test – Wing and Aircraft Aerodynamic Assessment180 Mins

Module 3 – VSPAERO

  • Introduction to VSPAERO – Solver Setup and Analysis Types60 Mins
  • Introduction to VSPAERO – Solver Setup and Analysis Types60 Mins
  • CFD Analysis of Aircraft Model – Lift, Drag, Pressure Mapping240 Mins
  • Performance Validation – Comparative Design Studies180 Mins

Module 4 – ANSYS

  • Introduction to ANSYS Workbench – Geometry Import, Cleanup, Meshing, Solver Setup180 Mins
  • Advanced Preprocessing & Meshing – Element Types, Mesh Quality, Mesh Refinement Strategies480 Mins
  • Structural Analysis – Static Structural, Stress, Deformation Analysis900 Mins
  • Modal & Buckling Analysis – Natural Frequencies, Mode Shapes, Stability Analysis600 Mins
  • Fatigue Analysis – Life Estimation and Damage Prediction420 Mins
  • Thermal Analysis – Steady State, Transient Thermal, Thermal Stress420 Mins
  • Composite Analysis – Ply Orientation, Composite Layup, Failure Criteria600 Mins
  • CFD Analysis – Fluent Setup, Boundary Conditions, Pressure Distribution900 Mins
  • CFD-FEA Integration – Aero-Structural Coupling and Multiphysics Analysis480 Mins
  • Topology Optimization Using ANSYS Discovery – Generative Design, Weight Reduction, Structural Optimization600 Mins
  • Design Validation & Optimization – Optimized Structural Validation and Comparative Studies300 Mins
  • Analysis Tool Test – Structural + CFD + Optimization Validation Assessment300 Mins

Module 5 – MATLAB

  • Introduction to MATLAB – MATLAB Interface, Variables, Arrays, Plotting180 Mins
  • MATLAB Programming Fundamentals – Scripts, Functions, Loops, Conditional Statements300 Mins
  • Engineering Data Processing – Simulation Data Extraction and Visualization300 Mins
  • Parametric Studies & Automation – MATLAB-Based Batch Processing and Optimization420 Mins
  • Technical Report Generation – Automated Plotting, Tables, Engineering Reporting240 Mins
  • MATLAB Tool Test – Aerospace Data Processing and Automation Assessment180 Mins

Module 6 – Final Capstone Project

  • Multidisciplinary Aerospace Analysis Project – Structural + Aerodynamic + Optimization Study420 Mins
  • Automation & Validation – MATLAB Automation and Performance Validation180 Mins
  • Technical Documentation – Technical Report, Presentation and Result Interpretation120 Mins
Automation Tools
Placement 1
Placement 2
Placement 3
Placement 4
Placement 5
Placement 6
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