Multiphase Flow Modelling Using Ansys Fluent


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Important information

Typology Certificate
Methodology Online
Duration 4 Weeks
  • Certificate
  • Online
  • Duration:
    4 Weeks

To attract young engineering minds in mechanical, chemical and aerospace towards core technical fields by imparting state-of-the-art education in fluid and thermal engineering through computational tools and thereby bridging the gap between academia and industry.
Suitable for: 1. Engineering Graduates and Post-Graduates (B.E / B.Tech / M.E. / M. Tech. in Aerospace, Automobile, Mechanical, Industrial Production, Chemical,. Petro-chemical, Bio-chemical and Bio-medical). 2. Third Year (Sem-II) or Final Year Engineering Students. 3. Final Year B.E Students who are aspiring for higher education abroad. 4. Working Professionals in Design, Manufacturing and Service Industry

Important information

Frequent Asked Questions

· Requirements

Bachelors (BE) or Masters (ME/M.Tech) degree with First Class in Mechanical, Aerospace, Chemical Engineering or other relevant fields


nidhi b.h
What I would highlight I would highly recommend this course to those who are really serious about there career in the field of CFD . just go for it ,it has got everything which you look for in the course. The course includes the latest softwares used in various industries. It also includes the seminars &projects. On regular basis the students are assessed through tests and assignments which help in improving the performance.
I would recommend this institute because of its dedicated faculty , highly professional environment and Placement activities. The institute is situated in heart of the city so there is no transportation problems. The internet facilities are provided all the time , the teachers are very punctual and supportive . They are always ready to help and give guidance. Individual counselling is also given as per the needs of the students.

What could be improved as such there is nothing i liked the least........... i would say i i had a wonderful experience at cctech .

Would you recommend this course? Yes.
nidhi b.h
What I would highlight Yes i am very much satisfied with the course . It has helped me to build my career in CFD field .The most important thing is the highly qualified and experienced faculty provided to us.I had experienced a very supportive study environment.The course structure is well organised which includes presentations , video lectures, projects and as well as guest lectures by IIT professors. The placement statistics are quite good . For me it was worth investing for this course.

Would you recommend this course? Yes.
jitendra gandrakota
What I would highlight This course will definitely add something to the theoretical knowledge gained in undergrad level. I personally recommend to stress more on ICEM-CFD and fluent's advanced applications like acoustics, combustion and please try to impart some knowledge on simple code development, this helps in writing profiles for different cases. Thank you.

Would you recommend this course? Yes.
nidhi b.h
What I would highlight Best in the field of CFD training Yes I am very much satisfied with the course. It has helped me to build my career in CFD field .The most important thing is the highly qualified and experienced faculty provided to us. I had experienced a very supportive study environment. The course structure is well organized which includes presentations, video lectures, projects and as well as guest lectures by IIT professors. The placement statistics are quite good. For me it was worth investing for this course.

What could be improved Nothing

Would you recommend this course? Yes.

Course programme

The Basics of Linux OS, Frequently used Linux commands, File system, Network services, Basic shell scripting, Compiling source codes in Linux environment, Using different software in Linux environment.


Vector calculus, Vector algebra, Linear and non-linear equations, Ordinary differential equations, Partial differential equations, Numerical methods for solving PDE's.

Fluid Dynamics

Concept of continuum, streamline, streakline and pathlines, Pressure distribution in fluids, Reynolds transport theorem, Integral form of conservation equations, Differential form of conservation equations, Viscous and inviscid flows, Laminar and turbulent flows, Euler and Navier Stokes equations, External and internal flows, Compressible and incompressible flow, Properties of supersonic and subsonic flows, Flow characteristics over various bodies, Non-dimensional analysis.

Geometric Modeling

Geometric transformations, File formats and translators, Parametric representation of curves and surfaces, Fundamentals of CAGD, Concept of topology, Surface modeling, Faceted models, Solid modeling.

CAD Repair for Meshing

Creation of water tight geometry, Faceted Boolean operations, Dependent and independent CAD errors, Healing the geometry using surface knitting, Surface projection methods.

Structured Grid Generation

Linear interpolations, Transfinite interpolations, Laplace grid generation, Poisson grid generation, Quadtree and Octree based methods, Map and submap, Sweeping, Surface grid generation, Mono block, multi block, hierarchical multi block, Moving and sliding multiblock, Grid clustering and grid enhancement, CGNS multi block format and structure.

Unstructured Grid Generation

Basic theory of unstructured grid generation, advancing front, Delaunay triangulation and various point insertion methods, Unstructured quad and hex generation, grid based methods, Concept of medial axis and medial surface, various elements in unstructured grids, Surface mesh generation, Surface mesh repair, Volume grid generation, Volume mesh improvement, mesh smoothing algorithms, grid clustering and quality checks for volume mesh.

Adaptive, Moving and Hybrid Grids

Need for adaptive and moving grids, Tet, pyramid, prism, and hex grids, using various elements in combination, Meshing complex geometry, and Application and example problems.

Introduction to CFD

Philosophy of CFD, Governing equations of fluid dynamics and their physical meaning, Mathematical behavior of governing equations and the impact on CFD simulations, Simple CFD techniques and CFL condition, Numerical solutions of Quasi-One-Dimensional nozzle flow and comparing the results with CFD results.

Numerical Methods in CFD

Finite Difference, Finite Volume, and Finite Element, Upwind and downwind schemes, Simple and Simpler schemes, Higher order methods, Implicit and explicit methods, Steady and transient solutions.

Numerical Methods in Heat Transfer

1D heat conduction, 1D conduction-convection, 2D convection on simple and complex domains, TSE method, IOCV method, Accuracy, consistency, stability and convergence, Boundary conditions.

Turbulence Modeling

Introduction and background, Algebraic models, One equation models, Two equation models, Near wall treatment, Reynolds stress models, Eddy viscosity models (EVM), Nonlinear eddy viscosity models, LES, RANS, and, hybrids, Direct numerical simulation (DNS

Conjugate Heat Transfer (CHT)

Introduction to CHT, Fluid boundary conditions, CHT solid boundary conditions, CHT interface conditions, many to one CHT interface conditions, linear solver000000;">.

Combustion Modeling

Introduction to combustion modeling, Flamelet models, Laminar flamelet model for non-premixed combustion, Laminar flamelet model for premixed combustion, Laminar flamelet model for partially premixed combustion, Laminar 1D model flames, Multi-step eddy dissipation model, Discrete phase models, Radiation models, Pollutant models, Combustion modeling case studies, Combustion modeling strategies.

Multiphase Modeling

Fundamentals of multiphase flows, Eulerian-Lagrangian (ELAG) approach, Eulerian-Eulerian (E2P) approach, Volume Of Fraction (VOF) approach, Solving example problems.

Chemical Fluid Mixing Simulation

Stirred tank modeling using the actual impeller geometry, Rotating frame model, The MRF Model, Sliding mesh model, Snapshot model, Evaluating Mixing from Flow Field Results, Industrial Examples.

Turbo machinery

Introduction to turbo machinery terminology, Quasi-Steady Rotor-Stator Interaction, CFD study of rotor-stator interactions, CFD simulation of turbo machinery components,
Industrial Examples.

Parallel and Distributed Computing

Introduction to the basic terminologies, Types of parallel computers, measuring parallel performance, Solving sample problems using parallel or distributing computing.

Aerospace Simulation

Introduction to various terminologies in aerodynamics, Computations of Cd, Cl, for 2D aerofoil, Flow simulation on aerofoil at various angles of attack, Supersonic and subsonic flow simulations, Lift, drag prediction on an aero plane, rockets and missiles, solving example problems.

Automobile Simulation

Introduction to various terminologies in automobile simulations, CFD analysis on Ahmed body, Transient and steady state analysis, Under hood thermal analysis, External flow, HVAC of car for passenger comfort.

Post-Processing of CFD results

Mesh Plots, contour plots, vector plots, and scatter plots,
Shaded and transparent surfaces, Particle trajectories and path line trajectories, Animations and movies, Exploration and analysis of data, Data management.

Commercial pre-processing packages

ICEM-CFD, Gambit, TGrid and GMSH

Commercial solver and post-processing packages


Validation of CFD results

Building confidence in CFD results, accuracy of CFD results, validate CFD results, improving the accuracy of CFD results, validating CFD results for complex problems.

CFD Project Management

CFD project planning, Defining objectives, Resource management, Geometry building, Grid generation, Using proper models, Boundary conditions, Post-processing, Validation of results.

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