COMSOL Multiphysics Multiphysics Simulation

COMSOL Multiphysics Multiphysics Simulation

COMSOL Multiphysics Multiphysics Simulation
Boyea CAE Engineering Technology Research Center
COMSOL Multiphysics Computational Fluid Dynamics and Heat Transfer Multiphysics Simulation
—— Copyright Course: Project Case Engineering Experience Special Topic

1. Topic Objectives

Through the combination of theory and engineering examples, master the use of COMSOL software to model and simulate computational fluid dynamics, heat transfer, and other physical phenomena in engineering.

2. Engineering Cases

10 engineering cases

3. Typical Problems

Cylinder flow disturbance, fluid flow in rotating machinery, multiphase flow, fluid-structure interaction, heat transfer in heat exchangers, phase change heat transfer, natural convection cooling, microwave heating, etc.

4. Knowledge Points

Computational fluid dynamics, heat transfer-related issues

5. Time and Venue

• Teaching Method: Xi'an / Online and offline simultaneously
• Course Time: Classes start after registration is approved. The venue and specific time will be confirmed by the staff.

6. Topic Map

7. Course Outline

Module 1: Basic Functions of COMSOL Software

• Training Objectives: Master the basic functions and basic operation process of COMSOL.
• Main Content:
  1. COMSOL workflow and working interface
  2. COMSOL geometry creation function
  3. COMSOL geometry import function
  4. COMSOL geometry processing skills
  5. COMSOL material definition
  6. COMSOL meshing operation skills
  7. Introduction and selection of COMSOL solvers
  8. COMSOL result post-processing
• Case 1: Examples of geometric modeling, meshing, and post-processing

Module 2: Advanced Application of COMSOL Software and Optimized Physics Field Technology

• Training Objectives: Master COMSOL advanced applications and optimization algorithm theory, and have engineering application capabilities.
• Main Content:
  1. Common functions
  2. Common errors in COMSOL custom parameters
  3. Introduction to optimization theory and algorithms
  4. Gradient optimization solver and gradient-free optimization solver
  5. Parameter estimation optimization
  6. COMSOL data curve fitting
  7. Develop, manage, and deploy simulation apps
• Case 2: Optimization modeling example

Module 3: Technical Details of Computational Fluid Dynamics Module

• Training Objectives: Master fluid mechanics theory and have engineering application capabilities.
• Main Content:
  1. Basic principles of fluid mechanics
  2. Introduction to computational fluid dynamics
  3. Detailed explanation of fluid flow control equations
  4. Classification of fluid flow
  5. Detailed explanation of main physical interfaces in computational fluid dynamics modules
  6. Boundary conditions and solving equations
  7. Creeping flow and laminar flow modeling
  8. Turbulence modeling
  9. Porous media and groundwater flow
  10. Multiphase flow
  11. Particle tracking in fluids
  12. Multiphysics modeling of fluid-structure interaction
• Case 3: Simulation of flow field around a cylinder
• Case 4: Fluid flow in rotating machinery
• Case 5: Multiphase flow analysis
• Case 6: Fluid-structure interaction analysis

Module 4: Technical Details of Heat Transfer Module

• Training Objectives: Master heat transfer theory and have engineering application capabilities.
• Main Content:
  1. Basic theory of heat transfer
  2. Interfaces related to heat conduction
  3. Interfaces related to heat convection
  4. Interfaces related to thermal radiation
  5. Heat transfer equations and boundary conditions
  6. Thin film conditions and thermal contact
  7. Non-isothermal flow
  8. Heat transfer in pipes and porous media
  9. Phase change heat transfer
  10. Thermal radiation
  11. Electromagnetic heating
• Case 7: Heat transfer of electronic chip radiators
• Case 8: Natural convection cooling analysis
• Case 9: Phase change heat transfer analysis
• Case 10: Microwave heating analysis

Additional Notes

1. The teacher will analyze the practical problems you raise, discuss and answer questions in class, and provide suggested guidance to help you solve technical difficulties in work (individual problems can be consulted with the teacher after class).
2. For this technical support, students need to carefully fill in and timely feedback the demand survey form when registering.

8. Training Fees

1. 4,000 USD/person (Group discounts: 10% for 2 attendees, 15% for 3+; 10% for students/teachers with ID). Accommodation not included.
2. Optional Vocational Skills Certification (1,600 USD) issued by Boye Engineering Technology, valid for career advancement.

3. Contact:

   Prof. Tian：WhatsApp：+86 15029941570 | Mailbox：540673737@qq.com

Cherish the training opportunity and dedicate yourself to mastering the skills. We welcome your active registration! After successful registration, our staff will confirm your registration information within 2 working days. Thank you for your attention to our company, and wish you a pleasant life.