(EBOOK PDF)Multiphysics Modeling Numerical Methods and Engineering Applications Tsinghua University Press Computational Mechanics Series 1st edition by Zhang 9780124077379 0124077374 full chapters

Multiphysics Modeling Numerical Methods and Engineering Applications Tsinghua University Press Computational Mechanics Series 1st edition by Cen, Song, Zhang, Qun – Ebook PDF Instant Download/Delivery: 9780124077379, 0124077374

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• ISBN 10:0124077374 

• ISBN 13:9780124077379

• Author: Cen, Song, Zhang, Qun

Multiphysics Modeling: Numerical Methods and Engineering Applications: Tsinghua University Press Computational Mechanics Series
Multiphysics Modeling: Numerical Methods and Engineering Applications: Tsinghua University Press Computational Mechanics Series describes the basic principles and methods for multiphysics modeling, covering related areas of physics such as structure mechanics, fluid dynamics, heat transfer, electromagnetic field, and noise.

The book provides the latest information on basic numerical methods, also considering coupled problems spanning fluid-solid interaction, thermal-stress coupling, fluid-solid-thermal coupling, electromagnetic solid thermal fluid coupling, and structure-noise coupling.

Users will find a comprehensive book that covers background theory, algorithms, key technologies, and applications for each coupling method

Multiphysics Modeling Numerical Methods and Engineering Applications Tsinghua University Press Computational Mechanics Series 1st Table of contents:

 1: The physics models
Abstract
1.1. Heat flow fundamentals
1.2. Fluid dynamics
1.3. Structural mechanics
1.4. Electromagnetic field
1.5. Acoustic analysis
2: Physics coupling phenomena and formulations
Abstract
2.1. Introduction to coupling problems
2.2. General coupling equations
2.3. Types of coupling interfaces
2.4. Classification of coupling phenomena
2.5. The coupling matrices among physics models
2.6. Thermal–stress coupling
2.7. Fluid–structure interaction
2.8. Conjugate heat transfer problem
2.9. Acoustic–structure coupling
2.10. Piezoelectric analysis
2.11. Electrostatic–structure coupling
2.12. Magneto–structure coupling
2.13. Magneto–fluid coupling
2.14. Electrothermal coupling
2.15. Magnetic–thermal coupling
2.16. Summary of the coupling types
3: The coupling methods
Abstract
3.1. Introduction to coupling methods
3.2. The strong coupling method
3.3. Weak coupling methods
3.4. Comparisons of the strong and weak coupling methods
3.5. Time integration scheme for transient multiphysics problems
4: Nonstructural physics with moving boundary
Abstract
4.1. The moving domain problem in multiphysics simulation
4.2. Advanced morphing method
4.3. Automatic remeshing technology
4.4. Mesh controls for rotating machinery
4.5. Treatment for pinched flow problems
4.6. Examples for mesh control
5: Stabilization schemes for highly nonlinear problems
Abstract
5.1. An overview of stabilization methods
5.2. Stabilization methods in spatial domain
5.3. Stabilization in the time integration scheme
5.4. Underrelaxation of the solution vector
5.5. Capping for the solution
5.6. Trade off the stability, accuracy, and efficiency
6: Coupling simulation for rotating machines
Abstract
6.1. Reference frames
6.2. General coupling boundary conditions
6.3. Governing equations in body-attached rotating frame
6.4. Multiple frames of references for rotating problems
6.5. Morphing technology for rotating problems
6.6. Multiphysics simulation for rotating machines
7: High-performance computing for multiphysics problems
Abstract
7.1. The challenges in large-scale multiphysics simulation
7.2. Parallel algorithm for the strong coupling method
7.3. Parallel scheme for weak coupling methods
8: General multiphysics study cases
Abstract
8.1. Efficiency studies of strong and weak coupling methods for simple case (Zhang and Toshiaki, 2004)
8.2. Fluid–structure interaction simulation of flow around a cylinder with a flexible flag attached
8.3. Fluid–structure simulation of a flapping wing structure in a water channel (Zhang and Zhu, 2012)
9: Multiphysics applications in automotive engineering
Abstract
9.1. The study of dynamic characteristics of hydraulic engine mounts by strong coupling finite element model
9.2. Weak coupling fluid–solid–thermal analysis of exhaust manifold
9.3. Coupling analysis of permanent magnet synchronous motor
10: Computational fluid dynamics in aerospace field and CFD-based multidisciplinary simulations
Abstract
10.1. Application and development of computational fluid dynamics simulation in the aerospace field
10.2. The research topic and its progress
10.3. Example
11: Multiphysics simulation of microelectro-mechanical systems devices
Abstract
11.1. Introduction to MEMS
11.2. Micropump
11.3. Natural convection cooling of a microelectronic chip
12: Bidirectional multiphysics simulation of turbine machinery
Abstract
12.1. The fluid–structure–thermal bidirectional coupling analysis on the rotor system of turbo expander
12.2. The fluid–structure coupling analysis of the turbine blade
13: Multiphysics modeling for biomechanical problems
Abstract
13.1. Numerical analysis of a 3D simplified artificial heart
13.2. FSI simulation of a vascular tumor
14: Other multiphysics applications
Abstract
14.1. FSI simulation of a sensor device in civil engineering
14.2. Acoustic structural coupling case
15: Code implementation of multiphysics modeling
Abstract
15.1. Overview of commercial CAE software for multiphysics
15.2. Code implementation for multiphysics modeling
References
Index
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