Turbulence Modeling for Aerodynamic Flows

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Turbulence Modeling for Aerodynamic Flows – On-Demand Short Course

Instructed by Dr. Florian Menter, Chief Scientist, ANSYS Germany GmbH; developer of the widely used Shear-Stress Transport (SST) turbulence model.

OVERVIEW

Whether for aircraft, vehicles, or wind turbines, aerodynamics is a critical aspect of improving energy efficiency. Aerodynamics is a complex science — calculations need to be performed with a high degree of precision and accuracy since every 1 percent of change in aerodynamic drag or lift has enormous implications on machine performance. Aerodynamic simulation, therefore, requires accurate flow solvers, comprehensive turbulence models, and precise geometry handling.

This 8-hour on-demand course covers Turbulence Modeling for aerodynamic flows. It starts with an introduction to the challenges of turbulence simulation and the currently used modeling concepts. It then proceeds to provide deeper insight into the main modeling concepts used in today’s industrial/aeronautical CFD simulations, ranging from Reynolds Averaged Navier Stokes (RANS) to Scale-Resolving Simulation (SRS) techniques, like Large Eddy Simulation, and hybrid RANS-LES methods.

Though Ansys CFD software is used in the course to illustrate example models, the course content focuses on generalized physical principles and be applicable to all CFD users, regardless of your CFD software tool of choice.

(Course recorded live in Fall 2021)

Tag(s) Aeronautics, On-Demand Short Course

Turbulence Modeling for Aerodynamic Flows – On-Demand Short Course

Description

LEARNING OBJECTIVES

Understand the fundamentals of Turbulence Modeling
Understanding the mathematical description of turbulent flows
Understand multiple types of advanced turbulent flow models.

AUDIENCE: The course is intended for engineers and physicists at all levels of expertise interested in turbulence modeling. The initial lectures rehearses the basics of turbulence modeling and then proceeds to more advanced topics of interest also to seasoned CFD practitioners. The audience is expected to have basic knowledge of the subject.

MATERIALS: All course slides and additional references will be available for immediate download. Stream the 8-hours of video recordings anytime, 24/7. No part of these materials may be reproduced, distributed, or transmitted, unless for course participants. All rights reserved.

CERTIFICATE: Receive an AIAA Course Completion Certificate upon viewing all course recordings. Please contact Lisa Le for a certificate.

COURSE FEES (Sign-In To Register)
- AIAA Member Price: $595 USD

- Non-Member Price: $795 USD

- AIAA Student Member Price: $395 USD

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OUTLINE

Topic 1: Overview Turbulence Modeling
Topic 2: Introduction to Eddy-Viscosity Models
Topic 3: Near Wall Modeling
Topic 4: Advanced Eddy-Viscosity Models
Topic 5: RANS Modeling of Laminar-Turbulent Transition
Topic 6: Second Moment Closure
Topic 7: Large Eddy Simulation
Topic 8: Hybrid RANS-LES Models
Topic 9: Best Practice in Turbulence Modeling and Outlook

INSTRUCTOR

Dr. Florian Menter is a world-recognized expert in turbulence modelling. He developed the widely used Shear-Stress Transport (SST) turbulence model, which has set a milestone in the accurate prediction of aerodynamic flows. He has also contributed to the formulation of one-equation turbulence models, advanced near-wall treatment of turbulence equations, transition modelling and unsteady flow models. He has been in charge of the turbulence modelling program at ANSYS for more than 15 years and has been involved in a wide range of industrial modelling challenges. He has published more than 50 papers and articles at international conferences and in international journals. Most recently, Dr. Menter has been involved in the implementation of new turbulence models for unsteady flow simulations, including Scale-Adaptive Simulation (SAS)and Embedded/Zonal LES models. These models are particularly relevant for the many industrial applications where time varying information is essential to the engineering outcomes (such as aerodynamics, acoustics, combustion, fluid-structure coupling, etc.).

Classroom hours / CEUs: 8 classroom hours / .8 CEU/PDH

Contact: Please contact Lisa Le or Customer Service if you have questions about the course or group discounts (for 5+ participants).

Courses in package:

Results 1 - 10 of 16

	Title	Credit(s)
1	Lecture-1-Recording-Turbulence-Modeling-for-Aerodynamic-Flows View Details \| Buy Now
2	Lecture-2-Recording-Turbulence-Modeling-for-Aerodynamic-Flows View Details \| Buy Now
3	Lecture-3-Recording-Turbulence-Modeling-for-Aerodynamic-Flows View Details \| Buy Now
4	Lecture-4-Recording-Turbulence-Modeling-for-Aerodynamic-Flows View Details \| Buy Now
5	Lecture-1-Course-Notes-Turbulence-Modeling-OverviewTurbModels View Details \| Buy Now
6	Lecture-2-Course-Notes-Turbulence-Modeling-EddyViscosityModelsBasics View Details \| Buy Now
7	Lecture-3-Course-Notes-Turbulence-Modeling-NearWallModeling View Details \| Buy Now
8	Lecture-4-Course-Notes-Turbulence-Modeling-EddyViscosityModelsAdvanced View Details \| Buy Now
9	Lecture-5-Course-Notes-Turbulence-Modeling-TransitionModeling View Details \| Buy Now
10	Lecture-6-Course-Notes-Turbulence-Modeling-2ndMomentClosure View Details \| Buy Now

<< < 1 2 > >>

	Title	Credit(s)
1	Lecture-1-Recording-Turbulence-Modeling-for-Aerodynamic-Flows View Details \| Buy Now
2	Lecture-2-Recording-Turbulence-Modeling-for-Aerodynamic-Flows View Details \| Buy Now
3	Lecture-3-Recording-Turbulence-Modeling-for-Aerodynamic-Flows View Details \| Buy Now
4	Lecture-4-Recording-Turbulence-Modeling-for-Aerodynamic-Flows View Details \| Buy Now
5	Lecture-1-Course-Notes-Turbulence-Modeling-OverviewTurbModels View Details \| Buy Now
6	Lecture-2-Course-Notes-Turbulence-Modeling-EddyViscosityModelsBasics View Details \| Buy Now
7	Lecture-3-Course-Notes-Turbulence-Modeling-NearWallModeling View Details \| Buy Now
8	Lecture-4-Course-Notes-Turbulence-Modeling-EddyViscosityModelsAdvanced View Details \| Buy Now
9	Lecture-5-Course-Notes-Turbulence-Modeling-TransitionModeling View Details \| Buy Now
10	Lecture-6-Course-Notes-Turbulence-Modeling-2ndMomentClosure View Details \| Buy Now