ANSYS-Learn How Mesh Morphing Accelerates CFD-Driven Shape Modifications June 7, 9

Tuesday, June 07, 2011
9:00 A.M. EDT, 1:00 P.M. GMT

Thursday, June 09, 2011
4:00 P.M. EDT, 8:00 P.M. GMT

Duration: 60 minutes

Join us for this one-hour presentation, during which you will learn how ANSYS FLUENT and RBF Morph accelerates shape modifications through fast mesh updating.

This webinar will inform you how you can drastically reduce the simulation time to complete a set of design changes, without the burden of regenerating a geometry or mesh. RBF Morph is a unique mesh morpher that combines the very accurate control of geometric parameters with extremely fast mesh deformation, all fully integrated with the ANSYS FLUENT solving process.


You will learn how mesh morphing enables you to quickly perform automated, parametric CFD simulations, as well as design exploration and optimization studies. You will also hear how RBF Morph can meet your requirements in terms of parallel performance, large model handling, process integration, and arbitrary mesh element support.

During this webinar:

  • RBF Morph will be presented through some industrial CFD applications:
    • MIRA will discuss how they use morphing to optimize the Aerodynamics of the MIRA Reference Car model.
    • University of Leeds will show an optimization study of a ship hull
    • University of Rome and ANSYS will present a Fluid Structure Interaction of a generic Formula 1 Front Wing
    • Some typical internal flow problems will be also showed
  • Participants will be able to assess the value of mesh morphing and the suitability of RBF Morph for their own CFD simulations

Join this webinar and discover the benefits of mesh morphing for automated, parametric CFD simulations, as well as design exploration and optimization studies.

Join us for this free one-hour webinar and see how our users are benefiting from the insight that computer simulation offers.

Register for the June 07 session

Register for the June 09 session

 

ANSYS-Webinar.png

Learn How Mesh Morphing Accelerates CFD-Driven Shape Modifications

Tuesday, June 07, 2011
9:00 A.M. EDT, 1:00 P.M. GMT

Thursday, June 09, 2011
4:00 P.M. EDT, 8:00 P.M. GMT

Duration: 60 minutes

Join us for this one-hour presentation, during which you will learn how ANSYS FLUENT and RBF Morph accelerates shape modifications through fast mesh updating.

This webinar will inform you how you can drastically reduce the simulation time to complete a set of design changes, without the burden of regenerating a geometry or mesh. RBF Morph is a unique mesh morpher that combines the very accurate control of geometric parameters with extremely fast mesh deformation, all fully integrated with the ANSYS FLUENT solving process.

rbf-morph-ws (2).gif

You will learn how mesh morphing enables you to quickly perform automated, parametric CFD simulations, as well as design exploration and optimization studies. You will also hear how RBF Morph can meet your requirements in terms of parallel performance, large model handling, process integration, and arbitrary mesh element support.

During this webinar:

  • RBF Morph will be presented through some industrial CFD applications:
    • MIRA will discuss how they use morphing to optimize the Aerodynamics of the MIRA Reference Car model.
    • University of Leeds will show an optimization study of a ship hull
    • University of Rome and ANSYS will present a Fluid Structure Interaction of a generic Formula 1 Front Wing
    • Some typical internal flow problems will be also showed
  • Participants will be able to assess the value of mesh morphing and the suitability of RBF Morph for their own CFD simulations

Join this webinar and discover the benefits of mesh morphing for automated, parametric CFD simulations, as well as design exploration and optimization studies.

Join us for this free one-hour webinar and see how our users are benefiting from the insight that computer simulation offers.




Review Article Be the first to review this article


Featured Video
Jobs
Sr. Mechanical Engineer for Kateeva at Newark, CA
Mgr Mechanical Engineering 2 for Northrop Grumman at Melbourne, FL
Senior Design Engineer for Kaman at Gilbert, AZ
MECHANICAL ENGINEER for Peter R. Thom and Associates at ORINDA, CA
Upcoming Events
Solidworks World 2017 at Los Angeles CA - Feb 5 - 8, 2017
Design & Manufacturing at Anaheim Convention Center Anaheim CA - Feb 7 - 9, 2017
ACE 2017 Nashville at Nashville TN - Mar 21 - 23, 2017
Innorobo 2017 at Docks de Paris Paris France - May 16 - 18, 2017
SolidCAM: Patented Wizard to optimal feeds & speeds
MasterCAM



Internet Business Systems © 2017 Internet Business Systems, Inc.
595 Millich Dr., Suite 216, Campbell, CA 95008
+1 (408)-337-6870 — Contact Us, or visit our other sites:
AECCafe - Architectural Design and Engineering EDACafe - Electronic Design Automation GISCafe - Geographical Information Services TechJobsCafe - Technical Jobs and Resumes ShareCG - Share Computer Graphic (CG) Animation, 3D Art and 3D Models
  Privacy Policy Advertise