Segregation in Vibrated Granular Systems explains the individual mechanisms that influence the segregation of granular media under vibration, along with their interactions. Drawing on research from a wide range of academic disciplines, the book focuses on vibrated granular systems that are used in industry, providing a guide that will solve practical problems and help researchers. The applications of vibration-based segregation in industries, including pharmaceuticals, mining, food and chemical processing are all investigated with appropriate examples. In addition, relevant theory behind the behavior of granular media and segregation processes is explained, along with investigations of the technologies and techniques used. - Analyzes all phenomena involved in the vibration-based segregation of bulk solids, including those relating to size, material properties and shape - Explores how different segregation mechanisms interact - Compares different technologies for investigating granular media, including PIV, MRI and X-ray tomography - Explains how to use computational techniques to model the behavior of granular media, including DM, CFD and FEM

Anthony Rosato is a Professor of Mechanical Engineering at the New Jersey Institute of Technology, USA. His current research interests are in particle technology, with an emphasis on computational modeling, including discrete element and Monte Carlo simulations. His recent interests are in computational modeling and dynamical systems approaches to wave propagation in granular systems. He was the founding director of the Particle Technology Center from 1995-99, and the director of the Granular Science Laboratory from 1999 to the present. He serves as the Editor-in-Chief of the journal Mechanics Research Communications, and is a fellow of the American Society of Mechanical Engineers and the American Academy of Mechanics.

Segregation in Vibrated Granular Systems explains the individual mechanisms that influence the segregation of granular media under vibration, along with their interactions. Drawing on research from a wide range of academic disciplines, the book focuses on vibrated granular systems that are used in industry, providing a guide that will solve practical problems and help researchers. The applications of vibration-based segregation in industries, including pharmaceuticals, mining, food and chemical processing are all investigated with appropriate examples. In addition, relevant theory behind the behavior of granular media and segregation processes is explained, along with investigations of the technologies and techniques used.

• Analyzes all phenomena involved in the vibration-based segregation of bulk solids, including those relating to size, material properties and shape
• Explores how different segregation mechanisms interact
• Compares different technologies for investigating granular media, including PIV, MRI and X-ray tomography
• Explains how to use computational techniques to model the behavior of granular media, including DM, CFD and FEM

Part I Background knowledge 1. Introduction 2. Macroscopic properties and particle characterization 3. Investigative approaches I: experimental imaging techniques 4. Investigative approaches II: simulations 5. Segregation measures 6. The behavior of vibrated systems Part II Segregation 7. Segregation promoted by size 8. Effects of material properties on segregation 9. Effects of particle shape on segregation 10. Segregation driven by multiple mechanisms 11. Influence of key parameters 12. Perspective on the state-of-the-art & future outlook