Bridging Scales in Modelling and Simulation of Non-Reacting and Reacting Flows. Part I Advances in Chemical Engineering Series

Bridging Scales in Modelling and Simulating Reacting Flows, Part I , Volume 52 presents key methods to bridge scales in the simulation of reacting single phase flows. New sections in the updated release include topics such as quadrature-based moment methods for multiphase chemically reacting flows, the collaboration of experiments and simulations for the development of predictive models, a simulation of turbulent coalescence and breakage of bubbles and droplets in the presence of surfactants, a section on salts and contaminants, and information on the numerical simulation of reactive flows.

1. Quadrature-Based Moment Methods for Multiphase Chemically Reacting Flows Rodney O. Fox 2. Numerical Simulation of Multiphase Reactive Flows Ziad Hamidouche, Enrica Masi, Pascal Fede, Renaud Ansart, Hervé Neau, Mehrdji Hemati and Olivier Simonin 3. Simulation of Turbulent Coalescence and Breakage of Bubbles and Droplets in the Presence of Surfactants, Salts, and Contaminants Salvatore Falzone, Antonio Buffo, Marco Vanni and Daniele L. Marchisio

Chemical engineers in general, especially reaction engineers. University faculty, students and researchers as well as industrial researchers, mainly in chemical engineering/chemistry but also mechanical engineering (combustion engineers) and maybe some applied mathematicians.

• Contains reviews by leading authorities in their respective areas
• Presents up-to-date reviews of the latest techniques in the modeling of catalytic processes
• Includes a broad mix of US and European authors, as well as academic, industrial and research institute perspectives
• Provides discussions on the connections between computational and experimental methods