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#1
September 20th, 2013, 12:47 PM
 Super Moderator Join Date: Apr 2013

Give me eligibility required for admission in the Computational Fluid Dynamics Graduate Certificate Online course of Iowa State University of Science and Technology.

Niharika Institute of Computational Engineering (NICE), Bangalore (Karnataka) offer Online CFD Course. NICE provide skill based training to engineering graduates on high end technologies like followings:
– Computational Fluid Dynamics (CFD)
– Aerodynamics
– Gas dynamics
– Aircraft engines
– Propulsion

Computational Fluid Dynamics (CFD):

Scope of CFD:

CFD has become an Integral part of product design cycle in following areas:
Aerospace
Automotive
Marine
Energy
Biomedical
General Industrial Areas

Syllabus of CFD Course:

Course on CFD and Aerospace Engineering:

Software’s:
FLUENT
ANSYS CFX
ICEMCFD (Hexa meshing)

Computational Fluid Dynamics-CFD:

Navier Stokes equations and its simplified forms, discussion on their physical meaning. Basic aspects of discretisation schemes, finite volume methods. Application of finite volume methods to simple equations like one dimensional steady state conduction equation and there by demonstrating how a CFD software works, impact of grid size on accuracy of results, solution matrix etc. Stability, convergence and consistency, CFL condition. Pressure correction techniques (Simple and simpler algorithms), compressible and incompressible solvers, detailed explanation of all types of boundary conditions and their importance in CFD analysis, discretisation techniques like upwind methods(First order and second order), Quick methods and Power law. Relaxation parameters. Structured and unstructured grids, mesh quality parameters and their impact on numerical solution. Reynolds averaged Navier Stokes (RANS) equations, K-epsilon model, Spalart allmaras model, near wall flow modelling, Wall functions.

Fluid Dynamics:
Significance of dynamic viscosity, laminar boundary layer, laminar-Turbulent transition, turbulent boundary layer, Structure of a turbulent boundary layer (laminar sub layer, buffer layer and log-law layer), Thermal boundary layer, boundary layer control, effect of adverse Pressure gradient, boundary layer separation.

Gas Dynamics:
Fundamental physical quantities of a flowing gas. The source of aerodynamics forces, equation of state. Concept of Mach number and classification of flow regimes in to Incompressible, Subsonic, Transonic, Sonic, Supersonic and Hypersonic based on Mach number. Stagnation properties (stagnation pressure, stagnation enthalpy and stagnation temperature). Effect of Mach number on compressibility, mass flow rate in terms of pressure ratio, mass flow rate in terms of Mach number, flow through convergent nozzle, flow through convergent-divergent nozzle, flow through diffusers, Mach number variation in nozzle and diffuser, concept of shock wave. Use of gas tables.

Heat Transfer:
Significance of heat transfer in engineering design, Heat conduction equation, boundary conditions, thermal contact resistance. Laminar free convection, effect of turbulence on free convection, external free convection flows and free convection in enclosures. Significance of heat transfer coefficient, local and average convective heat transfer coefficient, heat transfer correlations in internal and external flows. Mechanism of radiation heat transfer, radiation intensity, radiation properties, concept of black body, radiation shape factor, radiation shield.

Aerodynamics:
Introduction, Airfoil nomenclature,Lift,Drag and moment coefficients, Airfoil data, Infinite and finite wings, Pressure coefficient,Compressibilty correction for lift coefficient,Crtitical Mach number and critical pressure coefficients, Drag divergence mach number, Wave drag at supersonic speeds, summary of airfoil drag, calculation of induced drag, change in lift slope, swept wings, Mechanisms for higher lift.

ANSYS ICEMCFD Software:
Blocking and Hexahedral mesh generation for. Important tutorial geometries, Gas turbine compressor Impeller, Radial flow pump impeller , aircraft wing and shiphull.

ANSYS FLUENT and ANSYS CFX Software CFD analysis of, Nozzle, Afterburner subsystems and 2D and 3D aerodynamics,ship hydrodynamics,Electronic component cooling system.

Other Courses Offered at NICE:

For Abroad MS Aspirants:
Foundation course for Non aerospace Engineering graduates planning for MS (Aerospace) in abroad universities.
Enhances your MS admission possibilities
Enhances your job opportunities in abroad after MS programme
Teaching from very fundamental concepts
Training on FLUENT ,CFX and ICEMCFD (Hexa) softwares

Online & Offline CFD courses:
Best choice for outstation students and working professionals
Flexible and convenient timings for working professionals.
Teaching from very fundamental concepts
Training on FLUENT ,CFX and ICEMCFD (Hexa) softwares

Academic Projects:
Guidance for BE, M.Tech and Ph.D projects
Complete guidance for conducting CFD analysis &review of results
Consultancy services at affordable price for Industries
Training on FLUENT ,CFX and ICEMCFD (Hexa) softwares

Contact Details:
Niharika Institute of Computational Engineering
189/10, Amogha Nilaya, Brindavana Layout
01st Main, Mallasandra
Bangalore (Bengaluru Dist.) - 560057

Last edited by Gunjan; July 2nd, 2019 at 11:32 AM.
 Other Discussions related to this topic Thread

#2
September 20th, 2013, 02:41 PM
 Senior Member Join Date: Aug 2013
Re: Online CFD courses

Here I am giving you information about the Computational Fluid Dynamics Graduate Certificate Online course offered by the Iowa State University of Science and Technology..

Computational Fluid Dynamics Graduate Certificate Online course
Course content :
Two Core Courses (6 credits)
AerE/ME 546. Computational Fluid Mechanics and Heat Transfer I

Two Elective Courses (6 credits) from
AerE 524. Numerical Mesh Generation
AerE/ME 532. Compressible Fluid Flow
ME 536. Advanced Heat Transfer
ME 538. Advanced Fluid Flow
AerE 541. Incompressible Flow Aerodynamics
AerE/ChE 572. Turbulence
ME/ChE 632. Multiphase Flow
AerE/ME 646. Computational Methods for Internal and Low Speed Flows
AerE/ME 647. Advanced High Speed Computational Fluid Dynamics
ChE 652. Advanced Transport

Eligibility:
You have to passed a bachelor’s degree in a scientific and engineering discipline from any well recognized university with good marks ..

Contact details
Assistant Professor Jonathan Regele
1200 Howe Hall
Ames, IA 50011
515-294-5666
jregele@iastate.edu

Engineering-LAS Online Learning
800-854-1675 or 515-294-7470
elo@iastate.edu

Engineering-LAS Online Learning,
2273 Howe Hall, Suite 1328,
Ames, IA 50011-2273
Main Office: elo@iastate.edu,
Tech Support: elotech@iastate.edu

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