UDF Application for Mass Transfer and Surface Evaporation modeling by ANSYS Fluent: Training Package, 7 CFD Simulations
Original price was: $2,380.00.$599.00Current price is: $599.00. Student Discount
- Learn UDF applications for mass transfer and surface evaporation in ANSYS Fluent.
- Explore CFD simulations of evaporation, desalination, and species transport.
- Analyze the surface evaporation of falling water droplets.
- Model solar desalination systems in 2D and 3D, including advanced multi-stage setups.
- Validate numerical results of single-slope solar stills using scientific data.
- Customize evaporation and condensation rates using macro UDFs for precise control.
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Description
Overview
Introduction: UDF Applications in Mass Transfer and Surface Evaporation
This training package provides a comprehensive guide to leveraging User-Defined Functions (UDFs) in ANSYS Fluent for modeling mass transfer and surface evaporation. Through diverse simulations, participants will learn to solve complex problems in evaporation, desalination, and species transport. The course is designed for engineers and researchers seeking practical expertise in environmental and process engineering.
Surface Evaporation of a Falling Water Droplet
Begin with a foundational case that demonstrates surface evaporation from a falling water droplet. This simulation utilizes UDFs to calculate mass transfer rates under different environmental conditions, offering critical insights into evaporation physics.
Solar Desalination Considering Surface Evaporation
This case study examines the modeling of solar desalination systems with an emphasis on surface evaporation. Participants will explore how heat and mass transfer interact in renewable water desalination technologies.
Solar Still (3D) by Species Transport Model
Simulate a 3D solar still system for water desalination using the species transport model. This section focuses on evaporation and condensation processes, showcasing the role of UDFs in driving water desalination through solar energy.
Single-Slope Solar Still: Numerical Validation
Learn to validate numerical results for a single-slope solar still by comparing simulation data to experimental studies. This session highlights the importance of accuracy and reliability in CFD modeling for real-world applications.
Solar Water Desalination by Species Transport (2D)
Simplify the desalination process with a 2D model, focusing on species transport and mass transfer. This case emphasizes fundamental principles for beginners, while still providing valuable insights for advanced users.
Mass Transfer Macro UDF: Evaporation and Condensation Rate Modeling
Delve into the use of macro UDFs to control evaporation and condensation rates dynamically. This advanced exercise teaches participants how to customize simulations for precise mass transfer modeling.
Two-Stage Water Desalination Equipment CFD Simulation
Conclude with an advanced two-stage desalination system. This case integrates UDFs to optimize multi-stage setups for higher efficiency, demonstrating practical engineering applications for water treatment technologies.
Conclusion: Practical Mastery of UDFs in ANSYS Fluent
Summarize the skills and knowledge gained throughout the course. By mastering UDFs for mass transfer and surface evaporation, participants will be equipped to tackle a wide range of industrial and research challenges in CFD modeling
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