Rotary Drum: Fluid Dynamics, Dimensioning Criteria, and Industrial Applications
provides in-depth analysis of fluid dynamics in rotary drums. In addition, it provides analysis on the different configurations, including nonconventional ones, diverse industrial applications, and comparison with competing dryer types, as well as the modeling of these devices.
Covering important aspects of fluid dynamics in rotary drums, which directly influence the drying performance, the book also considers the significant cost of conventional rotary dryers. It takes into account the scale-up of rotary dryers and the control of product quality during processing, which can leave the final product overdried and overheated, wasting thermal energy.
The book serves as a useful reference for researchers, graduate students, and engineers in the field of drying technology.
Rotary Drum: Fluid Dynamics, Dimensioning Criteria, and Industrial Applications provides in-depth analysis of fluid dynamics in rotary drums. In addition, it provides analysis on the different configurations, including non-conventional ones, diverse industrial applications, and comparison with competing dryer types.
Arvustused
This book provides a comprehensive overview of the existing literature and recent advances in the design, dimensioning, and modelling of rotating drums. It covers the main operating parameters, geometric configurations, and offers a useful compilation of design equations in Chapter 2, establishing a strong theoretical foundation and understanding of operating principles. Chapter 3 explores the development of novel configurations aimed at improving performance, including the innovative roto-aerated rotating dryer, which has been successfully applied in processing fruit residues. Chapter 4 focuses on modelling fluid dynamics, heat transfer, and mass transfer within rotating drums. The CFD and DEM numerical simulations provide insights into physical phenomena crucial for scale-up and process optimization. Both distributed and lumped parameter models are applied to describe drying processes in rotating drums. The content of this book is engaging to chemical, mechanical, and food engineers working in both research and industry. - Maria do Carmo Ferreira, Chemical Engineering Department, Federal University of São Carlos, São Paulo, Brazil
1. Introduction.
2. Direct-Heat Rotary Dryers.
3. Nonconventional
Rotary Dryers.
4. Fluid Dynamics and Modeling of Heat and Mass Transfer in
Rotary Drums.
Prof. Marcos A.S. Barrozo graduated in Chemical Engineering from the Federal University of Rio de Janeiro (UFRJ, 1983), MSc in Chem. Engineering from COPPE/UFRJ (1985), Ph.D. in Chem. Engineering from UFSCar (1995) and Postdoc at the University of British Columbia (UBC) in Canada. He is Full Professor at Federal University of Uberlândia (UFU). He has experience in Chemical Engineering, acting on the following topics: fluid dynamics of particulate systems, solid-liquid separation, drying, coating, pelleting and flotation. He is CNPq Researcher 1A, Member of the Standing Committee of the Brazilian Congress of Particulate Systems. He was coordinator of the Board of Architecture and Engineering (TEC) of FAPEMIG, Member of the Board of Chemical Engineering at CNPq and coordinator of the Graduate Program in Chemical Engineering of UFU. He has supervised 122 graduate students, 77 MSc students, 45 PhD students, and 14 post-doctoral students. He is the author of 236 papers (3658 citations and H index=39, Scopus).
Dyrney Araújo Dos Santos is an Assistant Professor of Chemical Engineering at Federal University of Goiás (UFG), Institute of Chemistry, Brazil, since 2016. He received his bachelors degree in Chemical Engineering (2009), MSc in Chemical Engineering (2011), and Ph.D. in Chemical Engineering (2015) from the Federal University of Uberlândia (UFU), Brazil. In 2020, he received a postdoctoral fellowship from the Alexander von Humboldt Foundation to conduct research at Friedrich-Alexander University Erlangen-Nuremberg (FAU) in Germany. He is a member (alumni) of the Alexander von Humboldt Foundation and a member of the Brazil Humboldt Club. His research interests include systems involving multiphase fluid-particle flows, e.g., spouted beds, fluidized beds, rotary drums, fluidized bed opposed gas jet mills, etc., through experiments and numerical simulations using the Euler-Euler, and the Euler-Lagrange approaches.
Claudio Roberto Duarte is an Associate Professor of Chemical Engineering at Federal University of Uberlândia (UFU), Chemical Engineering Faculty, Brazil, since 2006. He received his bachelors degree in Chemical Engineering (2000), MSc in Chemical Engineering (2002), and Ph.D. in Chemical Engineering (2006) from the Federal University of Uberlândia (UFU), Brazil. His research interests include systems involving multiphase fluid-particle flows, e.g., granulation, mills, spouted beds, rotary drums, solid and liquid separation, etc., through experiments and numerical simulations using the Euler-Euler, and the Euler-Lagrange approaches.
Suellen Mendonça is an Adjunct Professor at Federal University of Lavras (UFLA), Brazil, since 2018. She graduated in Chemical Engineering (2013), MSc in Chemical Engineering (2014), and Ph.D. in Chemical Engineering (2018) from the Federal University of Uberlândia (UFU), Brazil. Her research interests include fluid dynamics of particulate systems, e.g., rotary drums with flights, rotary dryers and spouted beds, through experiments and numerical simulations using Computational Fluid Dynamics (CFD) and Discrete Element Method (DEM).
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