FORT WORTH, TX (17 September 2014) — Presentations representing a wide range of computational fluid dynamics (CFD) applications and techniques will highlight the Pointwise User Group Meeting 2014 on 29-30 October in Anaheim, California. The event will mark the company’s 20th anniversary.
Topics range from heat transfer to aeroacoustics to mesh sensitivies for internal aerodynamics.
The presenters are
- Dr. Michael BÓ§ttcher, Karlsruhe Institute of Technology
- Michael Ni, AeroDynamic Solutions
- Kyle Graham, Northrop Grumman Systems Corporation
- William Humber, AeroDynamic Solutions
- Andy Luo, TotalSim LLC
- Jeremy Shipman, CRAFT Tech
- Bruce Hilbert, SimCenter: National Center for Computational Engineering, The University of Tennessee at Chattanooga
- Dr. Rob McDonald, California Polytechnic State University
- Thomas Economon, Stanford University
- Dr. Amar Potturi, Metacomp Technologies
- Nick Wyman, Pointwise, Inc.
- Travis Carrigan, Pointwise, Inc.
A complete list of presentations is available at the user group meeting website.
The meeting, which brings together engineers and scientists from around the world, will be at the Embassy Suites Anaheim - South. For information about registration and other activities, see www.pointwise.com/ugm/.
Pointwise, Inc. is solving the top problem facing engineering analysts today – mesh generation for computational fluid dynamics (CFD). The company’s Pointwise software generates structured, unstructured and hybrid meshes; interfaces with CFD solvers, such as ANSYS FLUENT, STAR-CCM+, ANSYS CFX and OpenFOAM as well as many neutral formats, such as CGNS; runs on Windows (Intel and AMD), Linux (Intel and AMD), and Mac, and has a scripting language, Glyph, that can automate CFD meshing. Large manufacturing firms and research organizations worldwide rely on Pointwise as their complete CFD preprocessing solution.
Pointwise is a registered trademark and Pointwise Glyph and T-Rex are trademarks of Pointwise, Inc. All other trademarks are property of their respective owner.
For more information:
Jan Batts
817-377-2807
Email Contact