DPM Combustion: Combusting Particle and Droplet, 8 Practical Exercises
Original price was: $1,420.00.$299.00Current price is: $299.00. Student Discount
- Advanced DPM combustion package featuring 8 comprehensive ANSYS Fluent exercises, focusing on particle and droplet combustion phenomena.
- Covers various combustion applications from liquid fuel sprays to biomass combustion and fluidized bed systems.
- Addresses critical aspects including time-step sensitivity, evaporation modeling, and combustion chemistry.
- Integrates multiple physics including spray dynamics, heat transfer, and reaction mechanisms.
- Features industrial applications in power generation, boiler systems, and combustion chambers.
- Designed for engineers specializing in combustion analysis and thermal system design.
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Description
Course Overview
An advanced training program focused on discrete phase combustion modeling (DPM combustion) using ANSYS Fluent, featuring comprehensive coverage of particle and droplet combustion phenomena in various industrial applications.
Fundamental Liquid Fuel Combustion Module
The initial segment (Exercises 1, 3, 4) establishes core concepts through:
– Basic liquid fuel combustion chamber analysis
– Spray combustion fundamentals
– Time-step sensitivity studies in particle injection
This foundation ensures proper understanding of numerical considerations and basic setup procedures.
Advanced Combustion Phenomena
The middle segment (Exercises 2, 5, 7) progresses into more complex phenomena:
– Combusting particle dynamics
– Fuel droplet evaporation and mixing
These exercises focus on detailed physical processes and their interaction.
Industrial Applications Module
The final segment (Exercises 6, 8) addresses specific industrial applications:
– Circulating fluidized bed boilers
– Large-scale industrial combustion systems
Technical Components
The course emphasizes critical skills including:
– DPM model setup and configuration
– Combustion chemistry implementation
– Particle tracking and fate modeling
– Heat transfer analysis
– Species transport modeling
– Turbulence-chemistry interaction
– Numerical stability considerations
Learning Outcomes
Upon completion, participants will master:
– Advanced DPM combustion modeling
– Multi-phase reaction systems
– Spray combustion dynamics
– Industrial system simulation
– Performance optimization techniques
– Result analysis and validation
This course is ideal for combustion engineers, thermal system designers, and CFD analysts working in power generation, industrial furnaces, and combustion system design.
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