Applied Aerodynamics - Airfoils And Wings
Last updated 7/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English
| Duration: 10h 13m
Aerodynamics, Aerodynamic Modeling, Wing and Airfoil analysis
What you'll learn
In-depth knowledge on aerodynamcs topics, supported by the coding of your own airfoil and wing analyzer
How to evaluate the characteristics of arifoils
Matlab coding applied to aerodynamics analysis
Design, simulate and optimize your own airfoil and wing designs
Vortex panel methods
Weissinger method
Estimate the stall angle of your wing designs
Vortex lattice method
Requirements
Basic Engineering initial curriculum
Willingness to learn one of the most exciting topics in Aeronautical industry
Description
This course starts with a theoretical overview of the famous Navier-Stokes equations and how to simpllify them in order to get easier, yet insightful, potential equations for fast analysis. Then we will focus in using these equations to derive the Vortex Panel Method (we'll cover all maths aspects also) and code it in Matlab. With that in hands, we will perform several analysis of generic airfoils to better understand how key design characteristics affect the overall results.On the next section, we'll go from 2D world to 3D, analysing wings now. Similarly, we'll start with a theoretical review of the Weissinger method for general wings (we'll cover all maths aspects also) and then we'll create a Matlab code to simulate the designs. We'll invistigate how several key parameters, such as sweep, aspect ratio, twist and others, can affect the overall behavior of wings.Finally, we'll include viscous effects on the Weissinger method for a more robust analysis, including flow separation and stall.This course is filled with real examples and is a more hands-on approach on the analysis of airfoils and wings. If your are an engineering student, aviation enthusiast, industry or academic engineer or just want to learn more about how to apply Aerodynamic theory, this is the right course for you.
Overview
Section 1: PART 1: Airfoils
Lecture 1 Instructor Presentation and Course Overview
Lecture 2 From Navier-Stokes to Potential Flow
Lecture 3 Elementary flows
Lecture 4 Airfoil Theory - Part 1
Lecture 5 Airfoil Theory - Part 2
Lecture 6 Vortex Panel Method - Derivation
Lecture 7 Vortex Panel Method Coding: Part 1 - Airfoil drawing
Lecture 8 Vortex Panel Method Coding: Part 2 - Panel geometry
Lecture 9 Vortex Panel Method Coding: Part 3 - Coefficients and Results
Lecture 10 Vortex Panel Method Coding: Part 4 - Streamlines plot
Lecture 11 Panel Method Code
Section 2: PART 2: Wings
Lecture 12 Wing Theory
Lecture 13 Weissinger Method - Derivation
Lecture 14 Weissinger Method Coding - Part 1: Geometry
Lecture 15 Weissinger Method Coding - Part 2: Lift Calculation
Lecture 16 Weissinger Method Coding - Part 3: Drag Calculation
Lecture 17 Wing Characteristics - Linear
Lecture 18 Wing Geometry Optimization
Lecture 19 Weissinger Method Code
Section 3: PART 3: Viscous Flow on Wings
Lecture 20 The Decambering Method
Lecture 21 Modifying the Weissinger Code and Analysing the Results
Section 4: COURSE REFERENCES
Lecture 22 Reference for Further Knowledge
Lecture 23 Bonus Section
Those who are looking to have an in-depth understanding of aerodynamics,People interested in Engineering,Aviation enthusiasts in general,Those who want to work with Aerospace related Projects,Those who want to see a more applied approach in the topic, different from University,Aerospace Engineers,Mechanical Engineers,Those who want a hands-on experience in MATLAB programming
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