AE602PC: Computational Aerodynamics AERO Syllabus for B.Tech 3rd Year 2nd Sem R18 Regulation JNTUH

Computational Aerodynamics detailed Syllabus for Aeronautical Engineering (AERO), R18 regulation has been taken from the JNTUH official website and presented for the students affiliated to JNTUH course structure. For Course Code, Subject Names, Theory Lectures, Tutorial, Practical/Drawing, Credits, and other information do visit full semester subjects post given below. The Syllabus PDF files can also be downloaded from the universities official website.

For all other AERO 3rd Year 2nd Sem Syllabus for B.Tech R18 Regulation JNTUH, do visit AERO 3rd Year 2nd Sem Syllabus for B.Tech R18 Regulation JNTUH Subjects. The detailed Syllabus for computational aerodynamics is as follows.

Pre-requisite:

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Course Objectives:

Discuss the fundamental aspects of numerical discretization and the major theories, approaches and methodologies used in computational aerodynamics.
Analyze to build up the skills in the actual implementation of computational aerodynamics methods boundary conditions, turbulence modelling etc by using commercial CFD codes.
Demonstrate the applications of CFD for classic fluid dynamics problems and basic thoughts and philosophy associated with CFD.
Understand the various grids used in practice, including some recommendations related to grid quality and choose appropriate data structure to solve problems in real world.

Course Outcomes:

Mesh creation technique
Solving PDF by using numerical technique

Unit I

Unit II

Mathematical Behavior of Partial Differential Equations and Their Impact On Computational Aerodynamics: Classification of quasi-linear partial differential equations by Cramers rule and Eigen value method, general behavior of different classes of partial differential equations and their importance in understanding physical and CFD aspects of aerodynamic problems at different Mach numbers involving hyperbolic, parabolic and elliptic equations: domain of dependence and range of influence for hyperbolic equations, well-posed problems.

Unit III

Basic Aspects of Discretization: Introduction to finite difference: finite difference approximation for first order, second order and mixed derivatives, explicit and implicit approaches, truncation and roundoff errors, consistency, stability, accuracy, convergence, efficiency of numerical solutions. Von Neumann stability analysis, physical significance of CFL stability condition. Need for grid generation, structured grids artesian grids, stretched (compressed) grids, body fitted structured grids, H-mesh, C-mesh, O-mesh, I-mesh, multi-block grids, C-H mesh, H-O-H mesh, overset grids, adaptive grids, unstructured grids: triangular, tetrahedral cells, hybrid grids, quadrilateral, hexahedral cells.

Unit IV

Unit V

Finite Volume Methods: Basis of finite volume method, conditions on the finite volume selections, cell-centered and cell vertex approaches. Definition of finite volume discretization, general formulation of a numerical scheme, two-dimensional finite volume method with example.

Text Books:

J. D. Anderson, Jr., Computational Fluid Dynamics- The Basics with Applications!, McGraw-Hill Inc, 2012.
D. A. Anderson, J. C. Tannehill, R. H. Pletcher, Computational Fluid Mechanics and Heat Transfer!, 1st edition, 1997.

Reference Book:

For detail Syllabus of all other subjects of B.Tech 3rd Year Aeronautical Engineering, visit AERO 3rd Year Syllabus Subjects.

For all B.Tech results, visit JNTUH B.Tech all years, and semester results from direct links.

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