DPM Applications in Engineering Systems: Master Training Package (Level 6), 5 Practical Exercises
Original price was: $1,570.00.$399.00Current price is: $399.00. Student Discount
- Master-level DPM training package featuring 5 cutting-edge ANSYS Fluent examples, focusing on research-grade simulations and advanced numerical validations.
- Incorporates specialized physics including electrohydrodynamics, multi-phase phenomena, and discrete element modeling (DEM).
- Emphasizes validation against published research papers, featuring complex phenomena in nanofluids, DDPM applications, and particle segregation.
- Addresses challenging industrial applications including HDH systems, wire mesh demisters, and hydraulic fracturing.
- Integrates advanced numerical methods including charge density modeling, discrete particle tracking, and binary mixture segregation.
- Designed for research leaders and specialists requiring expertise in cutting-edge particle modeling and advanced numerical techniques.
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Description
Course Overview
A master-level program focusing on research-grade simulations and advanced numerical methods, validated against published literature and experimental data.
Module 1: Advanced Physics Integration
Topic 1-2 covers sophisticated physical phenomena:
– Electric field effects on nanofluids
– Charge density modeling
– Humidification-dehumidification processes
– Multi-phase heat and mass transfer
– Advanced numerical schemes
Module 2: Complex Industrial Applications
Topics 3-4 focus on advanced DDPM applications:
– Proppant transport simulation
– Multi-cluster fracture analysis
– Literature validation techniques
– Advanced particle tracking
Module 3: Research-Grade Modeling
Topic 5 addresses specialized particle dynamics:
– Binary mixture segregation
– Rotating equipment simulation
– Advanced particle interactions
– Experimental validation methods
Advanced Research Components
– Custom numerical methods
– Complex physics coupling
– Advanced UDF development
– Research paper validation
– Novel modeling approaches
Learning Outcomes
Participants will master:
– Research-grade simulation techniques
– Advanced numerical validation
– Complex physics integration
– Novel modeling approaches
– Scientific publication standards
This course is specifically designed for research leaders and specialists working on cutting-edge particle modeling applications requiring advanced numerical expertise and validation capabilities.
Electrical and Power
Heat Transfer
Cooling
Mechanical engines and devices
Turbomachinery (MRF) devices
Species Transport (Evaporation)
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