University of Mumbai Syllabus For Semester 7 (BE Fourth Year) Computational Fluid Dynamics: Knowing the Syllabus is very important for the students of Semester 7 (BE Fourth Year). Shaalaa has also provided a list of topics that every student needs to understand.

The University of Mumbai Semester 7 (BE Fourth Year) Computational Fluid Dynamics syllabus for the academic year 2021-2022 is based on the Board's guidelines. Students should read the Semester 7 (BE Fourth Year) Computational Fluid Dynamics Syllabus to learn about the subject's subjects and subtopics.

Students will discover the unit names, chapters under each unit, and subtopics under each chapter in the University of Mumbai Semester 7 (BE Fourth Year) Computational Fluid Dynamics Syllabus pdf 2021-2022. They will also receive a complete practical syllabus for Semester 7 (BE Fourth Year) Computational Fluid Dynamics in addition to this.

## University of Mumbai Semester 7 (BE Fourth Year) Computational Fluid Dynamics Revised Syllabus

University of Mumbai Semester 7 (BE Fourth Year) Computational Fluid Dynamics and their Unit wise marks distribution

### University of Mumbai Semester 7 (BE Fourth Year) Computational Fluid Dynamics Course Structure 2021-2022 With Marking Scheme

# | Unit/Topic | Marks |
---|---|---|

C | Module 1 | |

101 | Introduction | |

CC | Module 2 | |

201 | Mathematical Description of Physical Phenomenon | |

CCC | Module 3 | |

301 | Grid Generation and Discretization Methods | |

CD | Module 4 | |

401 | Heat Conduction, Convection and Diffusion | |

D | Module 5 | |

501 | Incompressible Fluid Flow | |

DC | Module 6 | |

601 | Finite Volume Methods | |

Total | - |

## Syllabus

- What is CFD, Scope and Application of CFD,
- Methods of Predictions like Experimental and theoretical,
- Working of Commercial CFD Softwares,
- Solution methodology-Preprocessing,
- Solver, Post processing

- Differential Equations, Meaning of Differential equation,
- The Continuity Equation,
- A Momentum equation,
- The Energy Equation,
- The General Differential Equation,
- Boundary Conditions,
- Initial and Boundary Conditions,
- Initial and Boundary Value problems

- Structured and unstructured Grids: O-type, H-type, C-type of Structured Grid Generation, Mesh Adaptation.
- The Nature of Numerical Methods: The Discritization Concept, The Structure of the Discritization Equation.
- Methods of Deriving the Discretization Equations,
- Taylor-Series Formulation,
- Variational Formulation,
- Method of Weighted Residuals,
- Control Volume Formulation

- Steady One-dimensional Conduction,
- Unsteady One-dimensional Conduction,
- Two and Threedimensional Situations,
- Over relaxation and Under relaxation,
- Steady Onedimensional and Two Dimensional Convection-Diffusion,
- Unsteady Onedimensional Convection

- Governing Equations, Stream FunctionVorticity Method,
- Determination of Pressure for Viscous Flow,
- The SIMPLE, SIMPLER Algorithm,
- Introduction to Turbulence Modeling,
- Basic Theories of Turbulence,
- The Time-Averaged Equations for Turbulent Flow

- FVM solutions to steady one,
- two and three dimensional diffusion problems and unsteady one and two dimensional diffusionproblems,
- FVM solutions to convection-diffusion problems - one and twodimensional,
- steady and unsteady;
- Advection schemes;
- Pressure velocity coupling