Microwave Power Engineering with Advanced Computer Modeling
1st Edition
Will be published approx. on 31. December 2026
Book
Hardback
450 pages
978-1-4398-5013-8 (ISBN)
Description
This book summarizes recent achievements and the state of the art in microwave power engineering through papers/chapters written by the respective experts. It presents a broad picture of the field, ranging from hot research topics to emerging practical technologies and applications. The text is supplemented by a CD collection of 15 computer models developed by the contributors, imitating either entire systems or their components. This provides readers with direct access to the core of the related studies, facilitating their integration into cutting-edge scientific and engineering activities in the field.
More details
Language
English
Place of publication
Bosa Roca
United States
Publishing group
Taylor & Francis Inc
Target group
College/higher education
Researchers, engineers, and graduate students involved with a wide array of microwave power applications in: materials sciences (especially development and production of new materials), electrical engineering (especially microwave systems and components, measurement techniques), medical and biological applications of microwave applications of microwave energy, metallurgy (including powder metallurgy), plasma (including plasma generation), chemistry and biochemistry, and pharmaceutics
Illustrations
260 s/w Abbildungen
260 Illustrations, black and white
Dimensions
Height: 234 mm
Width: 156 mm
Weight
453 gr
ISBN-13
978-1-4398-5013-8 (9781439850138)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Persons
Malgorzata Celuch is assistant professor at the Institute of Radioelectronics, Warsaw University of Technology, Warsaw, Poland. Specializing in computational electromagnetics and multiphysics modeling, her current research focuses on conformal FDTD methods, new applications of FDTD for microwave power problems, and frequency-domain parameter extraction from FDTD simulations.
Vadim V. Yakovlev is research associate professor in the Department of Mathematical Sciences at Worcester Polytechnic Institute, Worcester, Massachusetts. His current research interests include computational electromagnetics; mathematical/computer modeling and CAD for microwave & millimeter wave systems; EM optimization and inverse problems; coupled EM/thermal boundary value problems; multiphysics modeling in microwave power engineering, artificial neural networks applied in material sciences, high frequency electromagnetics , food engineering; modeling-based reconstruction of material parameters; microwave imaging in closed systems; and non-destructive evaluation/monitoring of microwave sintering.
Vadim V. Yakovlev is research associate professor in the Department of Mathematical Sciences at Worcester Polytechnic Institute, Worcester, Massachusetts. His current research interests include computational electromagnetics; mathematical/computer modeling and CAD for microwave & millimeter wave systems; EM optimization and inverse problems; coupled EM/thermal boundary value problems; multiphysics modeling in microwave power engineering, artificial neural networks applied in material sciences, high frequency electromagnetics , food engineering; modeling-based reconstruction of material parameters; microwave imaging in closed systems; and non-destructive evaluation/monitoring of microwave sintering.
Content
Control of the Microstructure of Powder Metallurgy Products by Microwave Heating. Electromagnetic and Thermal Analysis of High Power Industrial Microwave Ovens for Metal Casting Applications. Time-Resolved Imaging of Material Changes Under Microwave Irradiation. Modeling and Measurements of Susceptors for Microwave Heating Applications. Advanced Microwave Measurements for High-Power Applications. Parameter Analysis of Atmospheric Microwave Plasma Generation in Fluidized Beds. FEM Simulation of Microwave Plasma. Efficient Techniques of ANN-Based Microwave Imaging in Closed Systems. Microwave Power Applications to Metamaterial and Measurement of Complex Permittivity under NMR Temperature Mapping. Microwave Quantum Interactions for Polymer and Composite Curing. Appendix.