وصف الكتاب | This comprehensive summary of the state of the art and the ideas behind the reaction engineering approach (REA) to drying processes is an ideal resource for researchers, academics and industry practitioners. Starting with the formulation, modelling and applications of the lumped-REA, it goes on to detail the use of the REA to describe local evaporation and condensation, and its coupling with equations of conservation of heat and mass transfer, called the spatial-REA, to model non-equilibrium multiphase drying. Finally, it summarises other established drying models, discussing their features, limitations and comparisons with the REA. Application examples featured throughout help fine-tune the models and implement them for process design and the evaluation of existing drying processes and product quality during drying. Further uses of the principles of REA are demonstrated, including computational fluid dynamics-based modelling, and further expanded to model other simultaneous heat and mass transfer processes. |
المراجعة التحريرية | The REA is easy to use with the guidance of featured application examples given in this book ... highly recommended for both academics and industry practitioners involved in any aspect of thermal drying.' Zhanyong Li, Tianjin University of Science and Technology 'An interesting book on a novel approach to mathematical modeling of an important process ... a single comprehensive reference source.' Sakamon Devahastin, King Mongkut's University of Technology Thonburi '... a profound [and] at the same time relatively easily implementable modelling approach to model and predict drying processes ... a very fundamental and theoretically rigorous spatially distributed modelling approach ...' Benu P. Adhikari, University of Ballarat, Australia "The Reaction Engineering Approach (REA), which captures the basic drying physics, is a simple yet effective mathematical model for practical applications of diverse drying processes. The intrinsic "fingerprint" of the drying phenomena can in principle be obtained through just one accurate drying experiment. The REA is easy to use with the guidance of featured application examples given in this book. This book is highly recommended for both academics and industry practitioners involved in any aspect of thermal drying." - Zhanyong Li, Tianjin University of Science and Technology, China "An interesting book on a novel approach to mathematical modeling of an important process. Modeling Drying Processes: A Reaction Engineering Approach is the first attempt to summarize the REA to modeling in a single comprehensive reference source." - Sakamon Devahastin, King Mongkut's University of Technology Thonburi, Thailand " a profound at the same time relatively easily implementable modelling approach to model and predict drying processes... a very fundamental and theoretically rigorous spatially distributed modelling approach" - Benu P. Adhikari, University of Ballarat, Australia |
عن المؤلف | Xiao Dong Chen is currently the 1000-talent Chair Professor of Chemical Engineering at Xiamen University in China and the Head of Department of Chemical and Biochemical Engineering. He is also a fractional Professor of Chemical Engineering and the Co-Director of the Biotechnology and Food Engineering Research Lab at Monash University, Australia, and an Elected Fellow of the Royal Society of New Zealand, the Australian Academy of Technological Sciences and Engineering, and the IChemE. Aditya Putranto holds a PhD in Chemical Engineering from Monash University, Australia. |
تاريخ النشر | 15 Jul 2013 |
عدد الصفحات | 252 |