Modeling Multiphase Materials Processes
Details
Modeling Multiphase Materials Processes: Gas-Liquid Systems describes the methodology and application of physical and mathematical modeling to multi-phase flow phenomena in materials processing. The book focuses on systems involving gas-liquid interaction, the most prevalent in current metallurgical processes. The performance characteristics of these processes are largely dependent on transport phenomena. This volume covers the inherent characteristics that complicate the modeling of transport phenomena in such systems, including complex multiphase structure, intense turbulence, opacity of fluid, high temperature, coupled heat and mass transfer, chemical reactions in some cases, and poor wettability of the reactor walls. Also discussed are: solutions based on experimental and numerical modeling of bubbling jet systems, recent advances in the modeling of nanoscale multi-phase phenomena and multiphase flows in micro-scale and nano-scale channels and reactors.
Modeling Multiphase Materials Processes: Gas-Liquid Systems will prove a valuable reference for researchers and engineers working in mathematical modeling and materials processing.
Focuses exclusively on multi-phase flows in materials processes Includes numerous examples of multi-phase phenomena in materials processing operations Presents both mathematical and physical modeling techniques that are applicable to multi-phase phenomena in materials processing operations Describes multiphase flows in micro-scale and nano-scale channels and reactors Includes supplementary material: sn.pub/extras
Weitere Informationen
- Allgemeine Informationen
- GTIN 09781441974785
- Sprache Englisch
- Genre Allgemeines & Lexika
- Lesemotiv Verstehen
- Größe H245mm x B164mm x T37mm
- Jahr 2010
- EAN 9781441974785
- Format Fester Einband
- ISBN 978-1-4419-7478-5
- Veröffentlichung 24.11.2010
- Titel Modeling Multiphase Materials Processes
- Autor Manabu Iguchi , Olusegun J Ilegbusi
- Untertitel Gas-Liquid Systems
- Gewicht 772g
- Herausgeber Springer-Verlag GmbH
- Anzahl Seiten 413