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Practical Heat Transfer
Using MATLAB® and COMSOL®
Hardback
March 2022
9781683926337
More details
- Publisher
Mercury Learning and Information - Published
21st March 2022 - ISBN 9781683926337
- Language English
- Pages 374 pp.
- Size 7" x 9"
- Request Exam Copy
$79.95
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January 2022
9781683926313
More details
- Publisher
Mercury Learning and Information - Published
6th January 2022 - ISBN 9781683926313
- Language English
- Pages 374 pp.
- Size 7" x 9"
- Request E-Exam Copy
$79.95
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January 2022
9781683926320
More details
- Publisher
Mercury Learning and Information - Published
6th January 2022 - ISBN 9781683926320
- Language English
- Pages 374 pp.
- Size 7" x 9"
$169.95
This book guides the reader through the subject of heat transfer, covering the analytical, coding, Finite Element Analysis, and hybrid methods of thermal modeling. Cylindrical pipes are the focus of this work for their widespread use and multitude of engineering applications. The book’s primary focus is on the MATLAB® (R2021) and COMSOL® Multiphysics (5.6) software packages; however, the learning gained here can be transferred to other FEA tools. The purpose is to become familiar with the field of heat transfer modeling through numerous examples with significant applications such as transferring energy in the form of heat (and matter) in the pipes; the information can be expanded to transfer this knowledge to the constricted bodies.
FEATURES
- Features case studies and example models which enable the reader to implement conceptual material in practical scenarios with broad industrial applications
- Uses 3D and 2D thermal modeling examples created with COMSOL® Multiphysics version 5.6 (Heat Transfer Module) and MATLAB®
- Includes companion files with models created with COMSOL®Multiphysics and MATLAB®
- Guides the reader through the subject of heat transfer, covering the analytical, coding, Finite Element Analysis, and hybrid methods of thermal modeling
1: Pipes, Their Applications, and Heat Transfer
2: Heat Transfer Modeling
3: Finite Element Analysis
4: An Introduction to MATLAB
5: Heat Transfer Problems in MATLAB
6: The MATLAB Heat Transfer Problem Case Studies
7: The COMSOL Multiphysics Models
8: COMSOL Heat Transfer Problem Case Studies
9: Exercises
10: Lean Six Sigma Implementation
11: Conclusion
Appendices:
A. Mathematical Methods to Solve Heat and Wave Problems
B. Governing Equations Summary
C. List of Figures and Tables
Index
Layla S. Mayboudi, PhD
Layla S. Mayboudi holds a PhD in mechanical engineering with a thermofluids specialization from Queen’s University (Canada). Her specialties include heat transfer modeling and validation, thermal imaging, flow optimization, process improvement (Lean Six Sigma Black Belt), and mechanical test management. She has published books and journal articles and has several years of experience in the aerospace, rail transportation, and education industries.
Engineering; mathematics; COMSOL; Physics; MATLAB; thermal modeling