Moving Finite Element Method
Fundamentals and Applications in Chemical Engineering
- 248 pages
- English
- PDF
- Available on iOS & Android
Moving Finite Element Method
Fundamentals and Applications in Chemical Engineering
About This Book
This book focuses on process simulation in chemical engineering with a numerical algorithm based on the moving finite element method (MFEM). It offers new tools and approaches for modeling and simulating time-dependent problems with moving fronts and with moving boundaries described by time-dependent convection-reaction-diffusion partial differential equations in one or two-dimensional space domains. It provides a comprehensive account of the development of the moving finite element method, describing and analyzing the theoretical and practical aspects of the MFEM for models in 1D, 1D+1d, and 2D space domains. Mathematical models are universal, and the book reviews successful applications of MFEM to solve engineering problems. It covers a broad range of application algorithm to engineering problems, namely on separation and reaction processes presenting and discussing relevant numerical applications of the moving finite element method derived from real-world process simulations.
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Table of contents
- Front Cover
- Contents
- List of Figures
- List of Tables
- Symbols
- Preface
- Contributors
- Chapter 1: Modeling and Simulation in Chemical Engineering
- Chapter 2: The Moving Finite Elements Method
- Chapter 3: Solving 1D Time-Dependent Models
- Chapter 4: Solving 2D Time-Dependent Problems
- Chapter 5: Solving Two Scales 1D+1d Time-Dependent Problems
- Chapter 6: Solving Moving Boundary Problems
- Chapter 7: Looking Ahead
- Index
- Back Cover