Bedankt voor het vertrouwen het afgelopen jaar! Om jou te bedanken bieden we GRATIS verzending (in België) aan op alles gedurende de hele maand januari.

Afhalen na 1 uur in een winkel met voorraad
In januari gratis thuislevering in België
Ruim aanbod met 7 miljoen producten

Bedankt voor het vertrouwen het afgelopen jaar! Om jou te bedanken bieden we GRATIS verzending (in België) aan op alles gedurende de hele maand januari.

Afhalen na 1 uur in een winkel met voorraad
In januari gratis thuislevering in België
Ruim aanbod met 7 miljoen producten

Winkels

Verlanglijstje

Winkels

Verlanglijstje

Zoeken

Volg ons op

140 winkels

Wist je dat er in Vlaanderen voor iedereen een Standaard Boekhandel is binnen een straal van 7 km?

Vind hier een winkel

€ 181,95

+ 363 punten

Levertermijn 1 à 4 weken

Eenvoudig bestellen

Veilig betalen

In januari gratis thuislevering in België (via bpost)

Gratis levering in je Standaard Boekhandel

Omschrijving

The book provides an in-depth exploration of the theory, implementation, and vast applications of the Discrete Element Method (DEM) and its coupling with Computational Fluid Dynamics (CFD) for simulating complex multiphase flows. Beginning with the core theoretical framework of DEM covering particle kinematics, contact detection algorithms, and contact force models the book systematically progresses to advanced topics. It provides detailed coverage of critical particle-fluid interaction mechanisms, robust CFD-DEM coupling schemes, and the integration of heat and mass transfer phenomena. The strategies for enabling large-scale simulations, including parallel computing, GPU acceleration, and coarse-graining techniques, are also included. The book stands apart through its unparalleled breadth of application-centric chapters. Readers will find dedicated sections on:

Conventional and Advanced Reactors: Bubbling, spouted, and circulating fluidized beds, as well as magnetized and electrostatic systems.
Dense Granular Systems: Particle packing, shear flow, silo/hopper discharge, and moving bed applications in chemical looping, pyrolysis, heat exchanger, and blast furnaces.
Industrial Process Engineering: Pneumatic and screw conveyors, pump wear and flow dynamics, and mining operations in crushers, mills, screens, and chutes.
Advanced Manufacturing: Pharmaceutical processes like milling, blending, granulation, tableting, and coating, as well as battery electrode calendering and recycling.
Emerging Trends: The integration of machine learning and optimization strategies for complex multiphase flow systems.

Theory and Application of Discrete Element Method to Simulation of Multiphase Flows bridges fundamental theory with cutting-edge practical advancements, serving as an essential guide for students, engineers, and researchers seeking to model systems where particle dynamics are paramount.

Provides a complete roadmap from core theory to high-performance applications for complex multiphase flow simulations;
Delivers insights on a range of sectors, featuring dedicated applications in energy, manufacturing and heavy industry;
Future-proofs computational modeling skills by offering practical guidance on bridging simulation with AI.