
The lecture discusses: the course outline / the necessity of using simulation tools / the simulation capabilities and limitations / the simulation advantages and disadvantages .
The lecture discusses : the basic steps of simulation / the essential role of users / how to get more accurate results / how to optimize the meshing / how to simplify domain size / how to build more economical model.
Lecture discusses : tutorial of flow past circular cylinder / its applications / its flow physics / its simplifications / domain meshing / perfect simulation steps.
Lecture discusses : how to import meshed geometry file / how to define the case study on Ansys Fluent / its fluid properties / its boundary conditions / its solving criteria and convergence.
Lecture discusses : Ansys Fluent Post-processing / analysing results / comparing results with experimental ones / how to export data files to excel / how to export photos.
Lecture discusses : Naiver-Stokes equations / Nature of turbulence / turbulence large and small scales / Reynolds time averaging / stress tensor / closer to problem / Eddy viscosity concept.
Lecture discusses : Mixing length theory / Prandle law of the wall / Kolmogroves theory / Algebraic Models / Eddy viscosity Models / spalart and allmaras model / K-epsilon model / K- omega model / Reynolds stress model.
Lecture discusses : Aerofoil simulation as a tutorial / its applications / its flow physics / its simplifications / domain meshing / perfect simulation steps / Y+ estimation / using wall functions.
Lecture discusses : re-scaling meshed file / including the compressibility effects / dealing with hard convergence cases / case post-processing / compare results with experimental ones
Lecture discusses : Case post-processing / compare results with experimental ones.
Lecture discusses : Thermal flow physics / Energy General Equation / Radiation general equation and its Modeling / Solar Radiation / Solar incidence angle and intensity.
Lecture discusses : Thermal flow applications / office room air conditioning as a tutorial / its flow physics / its simplifications / domain meshing / perfect simulation steps / Solar load activation / Transparent medium like windows / Mesh independence Vs Y+ adaptation.
Lecture discusses : How to define thermal case study on Ansys Fluent / including energy equation / the case boundary conditions and including solar load / including buoyancy effects and natural convection / solving criteria and convergence.
Lecture discusses : Thermal Post-processing / using surface and volume integrals / analyzing results.
Lecture discusses: Solution problems / hard conversions / non consistency in solution / solving criteria / Finite Volume Method FVM / Momentum equation in integral form / convection and diffusion.
Lecture discusses: Integral to Algebraic equations conversion / Iteration and Initialization / Solver types / Pressure based Vs density based / Segregated Vs Coupled pressure solver / Explicit Vs Implicit density based solver.
Lecture discusses: Discritization schemes / Convergence / Mesh quality effects / FMG initialization / under-relaxation factors / Courant Number / time step and transient solver.
Lecture discusses : 2D Nozzle as a tutorial / its applications / its boundary conditions / case simplifications / shock waves / transient time solver / density based solver.
Lecture discusses : case study setup / pressure inlet outlet boundary condition / monitoring mass flow rate .
Lecture discusses: Switching to unsteady flow / creating video animation / auto-saving case study / extract videos / case post-processing.
Lecture discusses : Large Eddy Simulation / Direct Numerical Simulation / Validation of results / finalizing the simulation perfect steps panel / Horizontal axis wind turbines as a tutorial / its flow physics / Rotating zones for turbo machinery applications.
Lecture discusses : applying the wind turbines as a tutorial on Ansys Fluent / Multi zones creation / defining Moving Reference Frame MRF technique / defining Sliding mesh / Polyhedral mesh activation / automatic grid adaptation for adjusting Y+.
Lecture discusses : turbo- machinery Post-processing / analyzing results / dealing with errors, hard conversions and wrong solutions / troubleshooting on your simulation.
This course mainly teaches the students how to accurately simulate the fluid flow case studies using ANSYS Fluent software. teaches them the fundamentals of the CFD idea that underlies this software. Additionally, it teaches them how to handle the solver parameters and solution control for smooth convergence, as well as how to select the ideal turbulence modal for their unique case studies. teaching students how to post-process the data, including how to export any flow quantity and create pressure contours, velocity vectors, and visualized streamlines. The course relies on describing 8 practical tutorials such as flow around 2D circular cylinder and airfoil, H VAC applications involving solar loads, piping and flow acoustics, wind turbines as a turbo-machinery application, fire fighting, water hammering, and finally water spillways.
Ansys Fluent is the industry-leading fluid simulation software known for its advanced physics modeling capabilities and industry leading accuracy. You have more time with Ansys Fluent to innovate and improve the performance of your products. Trust the findings of your simulation to software that has been thoroughly proven in a variety of applications. With Ansys Fluent, you can build complex physics models and investigate a range of fluid phenomena in a programmable and user-friendly environment.
تهدف الدورة بشكل أساسي الي تعليم كيفية عمل محاكاة لحركة الموائع باستخدا برنامج أنسيز فلونت ومعرفة اسس المفهوم الحسابي الذي يستخدمه البرنامج وما هي معادلات سريان الموائع. تتضمن هذه الدورة أيضا ثمانية تدريبات من التطبيقات المتنوعة من الواقع العملي