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CFD modelling with ANSYS Fluent
Marek Jaszczur
Department of Fundamental Research in Energy Engineering
Marek Jaszczur, dr hab. inż.
building B3 room 215
consultation:
Friday 9.00 – 12.00
Wednesday 9.00 – 11.00
e-mail: [email protected]
Course
• Lecture (15h)
• Laboratory (30h)
• Project (15h)
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GOAL OF THE COURSE
• Basic information about CFD modelling, methodology, methods, accuracy, tools
• Preparation to use most advanced software ANSYS with focus on fluid flow and heat transfer modelling using FLUENT
• Post-processing
GradeGrade
grade from grade from
•• written colloquium (T) written colloquium (T)
•• computer laboratory exercises (L) with computer laboratory exercises (L) with
(mid(mid--term and term and finnalfinnal project )project )
•• points for activity (A)points for activity (A)
Final grade (OK) is calculated as Final grade (OK) is calculated as followfollow
OK = 0.5*T + 0.5*L + AOK = 0.5*T + 0.5*L + A
GRADESGRADES
• excellent 6.0
• Very good > 5.0
• More than good 4.5
• Good 4.0
• More than satisfactory 3.5
• Satisfactory 3.0
• Fails < 2.0
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Literature
• An Introduction to Computational Fluid Dynamics: The Finite Volume Method H. Versteeg , W. Malalasekera
• Ferziger J. H.; Peric M.; Computational Methods for Fluid Dynamics. Springer Verlag 2002.
• Numerical Heat Transfer and Fluid Flow, Suhas Patankar
• ANSYS FLUENT Documentation
Additional Literature :
• Anderson J.D. Jr.; Computational Fluid Dynamics. TheBasics with Applications. McGraw-Hill, USA 1995.
• 'Turbulence modeling for CFD - Wilcox D.C‘
Best books in Heat transfer
• J P Holman „Heat Transfer”
• Frank P. Incropera „Fundamentals of Heat and Mass”
• Yunus Cengel , Afshin Ghajar „Heat & Mass Transfer: A Practical Approach”
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CFD in modern Fluid Mechanics
EXPERIMENT THEORY
COMPUTERMODELLING
ALL partners are equall in analysis
NEW !!!
Plan – 14 working days
1. Introduction, mathematical model
2. Numerical model for steady cases
3. Numerical model for un-steady cases
4. Fluid flow treatment
5. Introduction do ANSYS-workbench
6. Design modeler
7. Mesher – grid generation
8. GO - FLUENT: 2D, 3D, unsteady, natural convection radiation, turbulence, multiphase, moving grid, BEST PRACTICES
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