TY  - GEN
N2  - This book addresses microwave chemistry at both the physical and molecular level. Its main goal is to elaborate the highly complex scientific issues involved in the fundamental theory of microwave chemistry, and in industrialized applications in the near future. The book provides detailed insights into the characterization and measurement of dielectric properties under complex conditions, such as chemical reactions, high-temperature environments, etc. Considerable attention is paid to the theory of dynamics in microwave chemistry, from the view of both physical level and molecular level. Microwave-Material Interactions simulation is used for physical dynamical analysis, while a Microwave-Molecules Interactions methodology is proposed for molecular dynamical analysis. In turn, calculational examples are introduced for better description and validation, respectively. Lastly, the book proposes design strategies and calculational examples for large-scale application. Richly illustrated and including a wealth of worked-out examples, this book is ideal for all researchers, students and engineers who are just getting started in the dynamics of microwave chemistry.
DO  - 10.1007/978-981-15-9655-1
DO  - doi
AB  - This book addresses microwave chemistry at both the physical and molecular level. Its main goal is to elaborate the highly complex scientific issues involved in the fundamental theory of microwave chemistry, and in industrialized applications in the near future. The book provides detailed insights into the characterization and measurement of dielectric properties under complex conditions, such as chemical reactions, high-temperature environments, etc. Considerable attention is paid to the theory of dynamics in microwave chemistry, from the view of both physical level and molecular level. Microwave-Material Interactions simulation is used for physical dynamical analysis, while a Microwave-Molecules Interactions methodology is proposed for molecular dynamical analysis. In turn, calculational examples are introduced for better description and validation, respectively. Lastly, the book proposes design strategies and calculational examples for large-scale application. Richly illustrated and including a wealth of worked-out examples, this book is ideal for all researchers, students and engineers who are just getting started in the dynamics of microwave chemistry.
T1  - Dynamics in microwave chemistry /
DA  - 2021.
CY  - Singapore :
AU  - Huang, Kama.
AU  - Yang, Xiaoqing.
AU  - Zhu, Huacheng.
CN  - QD501
PB  - Springer,
PP  - Singapore :
PY  - 2021.
ID  - 1433378
KW  - Chemical reactions
KW  - Microwave heating.
KW  - Dielectric measurements.
KW  - Microwaves.
KW  - Optical engineering.
KW  - Chemical engineering.
KW  - Physical measurements.
KW  - Electrodynamics.
KW  - Chauffage par micro-ondes.
KW  - Mesures diélectriques.
KW  - Micro-ondes.
KW  - Génie optique.
KW  - Génie chimique.
KW  - Mesures physiques.
KW  - Électrodynamique.
SN  - 9789811596551
SN  - 9811596557
TI  - Dynamics in microwave chemistry /
LK  - https://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-981-15-9655-1
UR  - https://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-981-15-9655-1
ER  -