COMSOL Multiphysics Coupling Core Technology Application

COMSOL Multiphysics Coupling Core Technology Application

COMSOL Multiphysics Coupling Core Technology Application

—— Project Case Library Series Course
Through the combination of theory and engineering examples, master the use of COMSOL software to model and simulate coupled physical problems in engineering, such as computational fluid dynamics, heat transfer, structural mechanics, MEMS, and electromagnetism.

I. Engineering Cases

12 engineering cases

II. Typical Problems

Cylinder flow disturbance, fluid flow in rotating machinery, heat transfer in heat exchangers, phase change heat transfer, bridge stress analysis, piezoelectric analysis, electromagnetic induction, acoustic analysis, underwater acoustic transducer analysis, etc.

III. Training Methods

• Teaching Mode: Xi’an / Simultaneous online and offline sessions
• Course Schedule: Can be arranged at any time

IV. 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.

Contact:

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

V. Topic Map

Basic Functions and Theoretical Foundations

• Workflow and working interface
• Basic heat transfer theory
• Geometry creation function
• Geometry import function
• Heat conduction-related interfaces
• Heat convection-related interfaces
• Geometry processing skills
• Material definition
• Basic functions of COMSOL software
• Heat transfer module
• Thermal radiation-related interfaces
• Heat transfer equations and boundary conditions
• Meshing operation skills
• Thin film conditions and thermal contact
• Introduction and selection of solvers
• Result post-processing

Case Studies

• Case 1: Examples of geometric modeling, meshing, and post-processing

• Case 2: Optimization modeling example

• Case 3: Simulation of flow field around a cylinder

• Case 4: Fluid flow in rotating machinery

• Case 5: Heat transfer of electronic chip radiators

• Case 6: Phase change heat transfer analysis

• Case 7: Bridge stress analysis

• Case 8: Piezoelectric simulation analysis

• Case 9: Capacitance edge effect

• Case 10: Induction heating of copper cylinders

Structural Mechanics and Optimization

• Introduction to structural mechanics-related theories
• Common functions
• Static analysis of linear structural materials
• Gradient optimization solver and gradient-free optimization solver
• Develop, manage, and deploy simulation apps
• Introduction to optimization theory and algorithms
• Common errors in custom parameters
• Parameter estimation optimization
• Data curve fitting

Advanced Applications and Multiphysics Coupling

• Advanced application and optimized physics field technology
• COMSOL general multiphysics coupling applications
• Structural mechanics and MEMS modules
• Piezoelectric effect
• Key points and analysis of fluid-structure interaction
• Introduction to piezoelectric material constitutive relations
• Piezoelectric material direction setting
• Modeling and analysis of piezoelectric effects
• Thermal stress and thermal expansion

Fluid Mechanics and Electromagnetism

• Basic principles of fluid mechanics
• Introduction to electromagnetism-related theories
• Introduction to computational fluid dynamics
• Maxwell’s equations theory
• Detailed explanation of fluid flow control equations
• Application and selection of professional physics fields
• Detailed explanation of main physical interfaces in computational fluid dynamics modules
• Classification of fluid flow
• Computational fluid dynamics module
• Electromagnetism module
• Boundary conditions and material definition
• Electrostatic modeling
• Boundary conditions and solving equations
• Electro-magneto-thermal coupling modeling

Fee Description

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

Contact Information

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

Appendix 1: Course Outline

Module 1: COMSOL Multiphysics Advanced Application and Optimization Technology

• Training Objectives: Master COMSOL multiphysics advanced applications and optimization algorithm theory, and have engineering application capabilities.
• Main Content:
  1. Typical cases of basic operations
  2. Geometry import function and processing skills
  3. Meshing operation skills
  4. Common functions
  5. Common errors in custom parameters
  6. Methods for custom equations
  7. Equation-based modeling and coupling with built-in modules
  8. Introduction to optimization theory and algorithms
  9. Develop, manage, and deploy simulation apps
• Cases:
  Case 1: Examples of geometric modeling, meshing, and post-processing
  Case 2: Optimization modeling example

Module 2: Technical Details of Computational Fluid Dynamics Module

• Training Objectives: Master fluid mechanics theory and have application capabilities for multiphysics coupled computational fluid dynamics problems.
• Main Content:
  1. Basic principles of fluid mechanics
  2. Introduction to computational fluid dynamics
  3. Detailed explanation of fluid flow control equations
  4. Modeling of creeping flow, laminar flow, and turbulent flow
  5. Particle tracking in fluids
  6. Multiphysics modeling of fluid-structure interaction
• Cases:
  Case 3: Fluid flow in rotating machinery (micro stirrer)
  Case 4: Fluid-structure interaction analysis

Module 3: Technical Details of Heat Transfer Module

• Training Objectives: Master heat transfer theory and have application capabilities for multiphysics coupled heat transfer problems.
• Main Content:
  1. Basic theory of heat transfer
  2. Interfaces related to heat conduction, heat convection, and thermal radiation
  3. Heat transfer equations and boundary conditions
  4. Heat transfer in pipes and porous media
  5. Thin film conditions and thermal contact
  6. Phase change heat transfer
• Cases:
  Case 5: Heat transfer of electronic chip radiators
  Case 6: Phase change heat transfer analysis

Module 4: Technical Details of Structural Mechanics Module

• Training Objectives: Master theories such as analysis of linear and nonlinear structural materials and piezoelectric effects, and have application capabilities for multiphysics coupled problems.
• Main Content:
  1. Introduction to structural mechanics-related theories
  2. Static analysis of linear structural materials
  3. Dynamic analysis of linear structural materials
  4. Buckling analysis of linear structural materials
  5. Analysis of nonlinear structural materials
  6. Modeling and analysis of piezoelectric effects
  7. Piezoresistive effect
• Cases:
  Case 7: Bridge stress analysis
  Case 8: Piezoelectric simulation analysis

Module 5: Technical Details of Electromagnetism Module

• Training Objectives: Master low-frequency electromagnetic theory and have application capabilities for multiphysics coupled problems.
• Main Content:
  1. Introduction to electromagnetism-related theories
  2. Maxwell’s equations theory
  3. Application and selection of professional physics fields
  4. Boundary conditions and material definition
  5. Electrostatic modeling
  6. Electro-magneto-thermal coupling modeling
• Cases:
  Case 9: Capacitance edge effect
  Case 10: Induction heating of copper cylinders

Module 6: Technical Details of Acoustics Module

• Training Objectives: Master acoustic theory and have application capabilities for multiphysics coupled problems.
• Main Content:
  1. Introduction to acoustics-related theories
  2. Acoustics modules and interfaces
  3. Frequency-domain pressure acoustics
  4. Transient pressure acoustics and nonlinearity
  5. Boundary element acoustics
  6. Acoustic-structure coupling analysis
• Cases:
  Case 11: Acoustic characteristic analysis of rooms
  Case 12: Underwater acoustic piezoelectric transducers

• Contact:

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