AE606PC: Cfd Lab AERO Syllabus for B.Tech 3rd Year 2nd Sem R18 Regulation JNTUH

Cfd Lab 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 cfd lab is as follows.

Pre-requisite:

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Course Objectives:

Experience in computing aerodynamic problems and understanding flow physics over the objects.
Knowledge in estimating flow analysis for different mach numbers.
Determining the aerodynamic forces like mainly lift and drag.
Analyze the errors and cause of errors in computational analysis.

Course Outcomes:

Numerical Simulation of Aerodynamic problem
Hands on experience on various solving technique with boundary conditions

List Of Experiment:

Week-1

Introduction:
Introduction to computational aerodynamics, the major theories, approaches and methodologies used in computational aerodynamics. Applications of computational aerodynamics for classical aerodynamics problems.

Week-2

Introduction To Gambit:
Introduction to gambit, geometry creation, suitable meshing types and boundary conditions.

Week-3

Week-4

Flow Over A Flat Plate:
Flow over a flat plate at low Reynolds numbers, observe the boundary layer phenomena, no slip condition and velocity profile inside the boundary layer.

Week-5

Flow Through Pipe:
Flow through pipe at different Reynolds numbers; observe the velocity changes for laminar and turbulent flows.

Week-6

Week-7

Flow Over A Cambered Aerofoil:
Flow over a cambered aerofoil at different velocities, observe flow properties and compare the computation results with experimental results (consider the model from aerodynamics laboratory)

Week-8

Flow Over A Symmetric Aerofoil:
Flow over a symmetric aerofoil at different velocities, observe flow properties and compare the computation results with experimental results (consider the model from aerodynamics laboratory)

Week-9

Flow Over Wedge:
Flow over wedge body at supersonic mach number; observe the shock wave phenomena and change of properties across the shock wave.

Week-10

Flow Over A Cone:
Flow over a cone at supersonic mach number; observe the shock waves and 3D relieving effect.

Week-11

Code Development:
Solution for the following equations using finite difference method

One dimensional wave equation using explicit method of lax.
One dimensional heat conduction equation using explicit method.

Week-12

Code Development:
Generation of the following grids

Algebraic grids.
Elliptic grids.

Reference Book:

Anderson, J.D., Jr., Computational Fluid Dynamics The Basics with Applications, McGraw-Hill Inc, 1st Edition 1998.
Hoffmann, K. A. and Chiang, S. T., Computational Fluid Dynamics for Engineers!, 4th Edition, Engineering Education Systems (2000)
Hirsch, C., Numerical Computation of Internal and External Flows: The Fundamentals of Computational Fluid Dynamicsll, Vol. I, 2nd Edition., Butterworth-Heinemann (2007)
JAF. Thompson, Bharat K. Soni, Nigel P. Weatherill Grid generation!, 1st Edition 2000.

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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