#language en ##Überschrift:= Typbezeichnung (VO,RU,..) voller Name, Nummer = = VU Computational Aerodynamics, 322.079 = ## Verweis auf tuwis: tuwis.tuwien.ac.at/lva/nummer; Die ewig langen,zope unique-ids sind natürlich nicht nötig. For the description of the course and registration, see [https://tiss.tuwien.ac.at/course/educationDetails.xhtml?courseNr=322079 TISS]. [attachment:Syllabus.pdf Course organization] [https://video.tuwien.ac.at/@317244 Lecture videos] == Lecture notes == 1. [attachment:Intro.pdf Introduction to Computational Aerodynamics] === Part A: Analytical Methods === 1.#2 [attachment:Governing_Eqs.pdf Governing Equations for Compressible Potential Flow] 1. [attachment:thin_profile.pdf Compressible Potential Flow over a Thin Airfoil: Asymptotic Expansion] * [attachment:thin_profile_summary.pdf Asymptotic Expansion for Thin Profiles - Recapitulation] 1. [attachment:Types.pdf Types of Partial Differential Equations] 1. [attachment:supersonic.pdf Supersonic Potential Flow over a Thin Airfoil at Zero Lift: D'Alembert Solution] a. [attachment:wave_equation.pdf Solution of the Wave Equation - Recapitulation] a. [attachment:supersonic_matlab.pdf Visualization of the Supersonic Flow Solution in MATLAB] a. [attachment:supersonic_python.pdf Visualization of the Supersonic Flow Solution in Python] a. [attachment:supersonic_streamlines.pdf Computation of Streamlines] 1. [attachment:singularity.pdf Singularity Method for Incompressible Potential Flows] 1. [attachment:Subsonic_thin_profile.pdf Subsonic Potential Flow over a Thin Airfoil at Zero Lift: Prandtl-Glauert Mapping] a. [attachment:Subsonic_compressible_thin_profile.pdf Summary] a. [attachment:subsonic_thin_profile_visualization.pdf Visualization of the Subsonic Potential Flow] a. [attachment:integrals_subsonic_thin_profile.pdf Some Useful Analytical Integrals] a. [attachment:subsonic_streamlines.pdf Correction for Compressibility Effects] 1. [attachment:thin_airfoil_theory.pdf Thin Airfoil Theory: Circulation and Lift] a. [attachment:kutta-joukowski.pdf Kutta-Joukowski Theorem] a. [attachment:thin_airfoil_notes.pdf Recapitulation of the Thin Airfoil Theory] a. [attachment:flat_plate.pdf Example: Flow over an Inclined Plate] 1. Boundary-Layer Theory a. [attachment:Boundary_layer.pdf Boundary-Layer Equations] a. [attachment:bl_effects.pdf Boundary-Layer Effects] a. [attachment:similarity.pdf Similar Solutions of the Boundary-Layer Equations] a. [attachment:Falkner-Skan.html Numerical Solution of the Falkner-Skan Equation] a. [attachment:momentum-integral.pdf Momentum-Integral Equation] === Part B: Pre-CFD Numerical Methods === 1.#10 Panel Methods a. [attachment:Panel_method_overview.pdf Overview] a. [attachment:panel_method_1.pdf Panel Method Using Sources and Vortices] a. [attachment:Hess-Smith.pdf Hess-Smith Method] a. [attachment:naca.pdf NACA 4-Digit Airfoil Series] 1. Integral Methods for the Computation of Boundary Layers a. [attachment:integral_methods.pdf Overview] a. [attachment:walz.pdf Walz Method for Laminar Boundary Layers] a. [attachment:laminar_shape_factor.html Computation of the Shape Factor for Hartree Profile]