Simcenter 3D
Advanced Thermal and Flow Analysis (G2H)

Course Code
TR15226
Software
Simcenter 3D 11.0
User Level
Intermediate
Pricing ID
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List Price
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Training Center Duration
2 Days

(G2H) Guaranteed to Hold. Select Here for more information about G2H courses.

The Advanced Thermal and Flow Analysis course provides students with comprehensive instruction in the use of the Simcenter Advanced Thermal and Flow software to model heat transfer, radiation and 3D fluid flow problems. Students will learn the skills necessary to incorporate comprehensive radiation modeling including solar and radiative heating, fully coupled with thermal and fluid flow analysis. Students learn how to apply advanced thermal and flow boundary conditions. The course covers both theoretical and practical aspects of how the software handles heat transfer by conduction, convection and radiation and includes a variety of examples and tutorials addressing a wide range of applications.

WHO SHOULD ATTEND

Designers, engineers who use Simcenter Pre/Post to model complex heat transfer and fluid flow for challenging multi-physics applications

PREREQUISITES

Required courses:

  • Or successful completion of Simcenter Pre/Post self-paced courses on Learning Advantage.
  • Working knowledge of NX modeling.
  • Basic understanding of finite element analysis (FEA) and heat transfer.

PROVIDED COURSE MATERIALS
  • Student Guide
  • Activity Material

This course is no longer offered. Contact us if you would like to schedule a training event at your facility.

For more information
Learning Services, USA

PRIMARY COURSE TOPICS

  • Solar heating
  • Radiative heating
  • Advanced thermo-optical properties
  • Duct networks
  • Supersonic flow boundary condition
  • Rotating frames of reference
  • Rotational and translational periodicity
  • Advanced thermal coupling types
  • Articulating models
  • Active fan controller
  • Non-Newtonian fluids
  • Humidity and scalar fluid mixtures
  • Peltier cooler (TECs)
  • Joule heating
  • Ablation and charring
  • Material libraries
  • Phase change
  • Particle tracking