1 / 24

FlowLab “A Virtual Fluids Laboratory”

FlowLab “A Virtual Fluids Laboratory”. CACHE / Fluent Presentation for AIChE Annual Meeting. Presentation Outline. Fluent’s interactions with universities CFD and undergraduate engineering education Overview of Fluent/FlowLab FlowLab templates University collaborations

alida
Télécharger la présentation

FlowLab “A Virtual Fluids Laboratory”

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. FlowLab“A Virtual Fluids Laboratory” CACHE / Fluent Presentation for AIChE Annual Meeting

  2. Presentation Outline • Fluent’s interactions with universities • CFD and undergraduate engineering education • Overview of Fluent/FlowLab • FlowLab templates • University collaborations • FlowLab availability

  3. Fluent University Program • FLUENT, FIDAP, POLYFLOW at over 600 universities worldwide • Fluent views universities as important strategic partners • Advanced R&D • physics, computational methods & technology • consortia, funded research • Expanded software capability • industry funded • technology transfer • Applied CFD • leading edge applications, validations • Students – CFD practitioners • Use of CFD in the curriculum

  4. CFD & Undergraduate Education • CFD is a critical technology for industry • Improve design • Cut costs • Understand equipment performance • CFD in academia today • Student projects • Funded research • Growing need to provide CFD exposure to undergraduate engineering students • Difficult to deploy CFD tools in classroom

  5. Fluent/FlowLab: Deploy CFD in the Classroom • Built on top of GAMBIT and FLUENT • Based on pre-defined, parameterized fluid mechanics and heat transfer problems • Eliminates long learning curve • Validated exercises tied to traditional thermal/fluids curriculum • Customized or extended for individual instructor needs • Targeted at undergraduate or MS level courses in engineering & science • Homework exercises • Augment existing lectures

  6. FlowLab 1.1: Sudden Expansion Exercise User Interface Summary

  7. Radius and Diameter Ratio specified by user FlowLab 1.1: Orifice Flow Exercise Geometry Creation – Axisymmetric Geometry

  8. Inlet Velocity specified Density and Viscosity specified FlowLab 1.1: Orifice Flow Exercise Boundary Conditions and Material Properties

  9. Mesh Option Selection (course, medium, or fine) FlowLab 1.1: Orifice Flow Exercise Meshing

  10. User specifies # iterations and convergence criteria Residuals displayed while converging FlowLab 1.1: Orifice Flow Exercise Solving Flow Problem

  11. Contour plots, vector diagrams, and particle tracking capabilities used to analyze flowfield FlowLab 1.1: Orifice Flow Exercise Post-Processing

  12. Total pressure drop, discharge coefficient, and % pressure recovery are reported XY Plots are available, example shows radial profiles of axial velocity FlowLab 1.1: Orifice Flow Exercise Reports

  13. Time Dependent Analysis New Feature Introduced in October, 2003 FlowLab showing contours of velocity for the cylinder exercise at Re=83

  14. Particle Tracking New Feature Introduced in October, 2003 FlowLab showing streamline bands overlaid with particles colored by velocity magnitude introduced downstream of the orifice for the orifice exercise at Re=40,000

  15. Benefits of FlowLab • Use visualization to reinforce fundamental fluid dynamics concepts • Expand lab experience - easily and at low cost • Stimulate interest in fluid mechanics • Expose students to new job skills Exploration of CFD principles Fundamental fluids examples Real-world applications

  16. FlowLab Exercises • Developed in collaboration with university professors • FlowLab template library • http://flowlab.fluent.com/exercise/index.htm • Free and web-accessible to FlowLab users • Templates available include … • Developing Flow and Heat Transfer in a Pipe • Fully Developed Pipe Flow • Flow Around a Cylinder • Sudden Expansion in a Pipe • Lift/Drag on an Airfoil • Flow Over a Heated Plate • Heat Conduction • Flow Through an Orifice

  17. FlowLab Exercise:Coronary Artery TEMPLATE DEVELOPER Professor Cecile Legallais Universite de Technologie de Compiegne France

  18. FlowLab Exercise:Taylor-Couette Flow TEMPLATE DEVELOPER Dr. Yanhui Hu andDr. Rodney Fox Iowa State University USA

  19. FlowLab Exercise:Center Gated Disk TEMPLATE DEVELOPER Dr. Steven Parks & Dr. Charles Petty Michigan State University USA

  20. FlowLab Collaborators • NSF Curriculum Development Project • University of Iowa, Iowa State, Cornell, Howard • Course Companion Materials • John Cimbala, Penn State University • Internet Course on Multiphase Transport Phenomena • Charles Petty & Steve Parks – Michigan State • Univ. of Tulsa, Univ. of Akron • CACHE Corporation • ASEE • 2002 ASEE Summer School for Chemical Engineering Faculty • Jennifer Sinclair & Kim Hayden – Purdue

  21. U. S. Military Academy University of Massachusetts at Dartmouth Illinois Institute of Technology Clarkson University University of Oklahoma Case Western Reserve University Colorado State University Wayne State University University of Kansas Rochester Institute of Technology University of Nevada West Virginia University University of Delaware University of Maryland Illinois Institute of Technology Virginia Military Institute Purdue University Howard University Brigham Young University Pomona College University of Connecticut Iowa State University Columbia University Cornell University University of Victoria University of Iowa Webb Institute University of Alberta Northern Illinois University University of Yucatan Huazhong University of Science and Technology Instituto Tecnologico y de Estudios Superiores de Monterrey FEI-Fundacao Educacional Inaciana Pe. Sabolia De Mederios FH Trier Montanuniversität Leoben Georg-Simon-Ohm Fachhochschule Nürnberg Silesian Technical University Institut Superieur Meurice Ceria Technological Education Institute of Crete NED University of Engineering and Technology Politechnika Wroclawska Riydah College of Technology, Politechnika Wroclawska University of Patras Univeristy of Northumbria Universiteit Gent University of Glasgow CAE Risalpur Technical Institute of Crete Technical University of Szczecin Oxford Brookes University Dublin City University CPE Lyon UNIVERSITE DE TECHNOLOGIE DE COMPIEGNE CPE Lyon Politecnico di Milano Snapshot of FlowLab Users

  22. Platform Support • Support for Windows Operating Systems • Windows XP, Windows 2000 • Support for Redhat Linux and compatible operating systems • Redhat Linux versions 7.1, 7.2, 7.3, 8.0

  23. Obtaining FlowLab • Department license • Allows a class direct access to the software • 25 seats • $1,000 / year • Individual license • Allows a professor to perform classroom demonstrations • 1 seat • $200 / year • Trial license • A six-month free evaluation will be provided upon request

  24. Questions • Contact Information • Website: http://flowlab.fluent.com • E-mail Inquiry: flowlab@fluent.com • Phone: 1-800-445-4454 ext. 308 Let us know how we can help you !

More Related