उद्यमेन हि सिद्ध्यन्ति

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Presentation transcript:

उद्यमेन हि सिद्ध्यन्ति Four Day’s Workshop on “COMPUTATIONAL FLUID DYNAMICS Using ANSYS FLUENT 14.5” AGENDA

Agenda – Day 1 CFD Pre-Processing 10:00 10:30 Lecture 1 Basic Introduction of CFD 10:30 11:00 Lecture 2 Steps follow in CFD Simulation 11:00 11:30 Lecture 3 Introduction of ANSYS WB 11:30 12:00 Lecture 4 GUI of ANSYS WB (Demo) 12:00 12:30 TEA-BREAK 12:30 13:00 Lecture 5 Geometry export in WB (Demo) 13:00 14:00 Lecture 6 Meshing in WB (Demo) 14:00 15:00 Workshop 1.1- 2D wind tunnel for small car 15:00 15:30 TEA-BREAK 15:30 16:30 Workshop 1.2- 3D pipe bend (mixing tee) 16:30 17:00 Lecture 7 Introduction of ANSYS Fluent

Agenda – Day 2 CFD Solution & Post Processing 10:00 10:30 Lecture 1 ANSYS FLUENT Demo-1 10:30 11:00 Lecture 2 ANSYS FLUENT Demo-2 11:00 11:30 Workshop 2.1 Car wind tunnel analysis 11:30 12:00 Workshop Continue 12:00 12:30 TEA-BREAK 12:30 13:00 Lecture 3 Cell Zones and Boundary Conditions 13:00 13:30 Lecture 4 Solver Settings 13:30 14:00 Lecture 5 Post Processing 14:00 14:30 TEA-BREAK 14:30 15:30 Workshop 2.2- mixing tee analysis 15:30 16:30 Workshop 2.3 Electronic board cooling 16:30 17:30 Review

Agenda – Day 3 CFD Advanced Topic 10:00 10:30 Lecture 1 Turbulence Modeling 10:30 11:00 Lecture 2 Heat Transfer 11:00 12:00 Workshop 3.1 Turbulent Flow Behavior 12:00 12:30 TEA-BREAK 12:30 13:00 Lecture 3 Radiation Modelling 13:00 13:30 Lecture 4 Multi-Phase Modeling 13:30 14:00 Lecture 5 Virtual Data recorders 14:00 14:30 TEA-BREAK 14:30 15:30 Workshop 3.2 problem 15:30 16:00 Lecture 6 UDF-Basics 16:00 17:00 Lecture 7 Write First UDF 17:00 18:00 Workshop 3.3 problem

Agenda – Day 4 CFD Advanced Topic 10:00 10:30 Lecture 1 Solidification and Melting 10:30 11:00 Lecture 2 Erosion Modeling 11:00 12:00 Workshop 4.1 Continuous casting Modeling 12:00 12:30 TEA-BREAK 12:30 13:00 Lecture 3 Design Exploration using ANSYS WB 13:00 13:30 Lecture 4 Direct Optimization 13:30 14:00 Lecture 5 Design of Experiment 14:00 14:30 TEA-BREAK 14:30 15:30 Workshop 4.2 Optimization for Heat Pipe 15:30 16:00 Workshop 4.3 DOE-Surface Response Methodology 16:00 17:00 Lecture 7 Review 17:00 18:00 Closing Ceremony