Logo

Hydrodynamic Modelling and Granular Dynamics

Small book cover: Hydrodynamic Modelling and Granular Dynamics

Hydrodynamic Modelling and Granular Dynamics
by

Publisher: BookBoon
ISBN/ASIN: 8776811727
Number of pages: 42

Description:
In the field of particle technology hydrodynamic modelling in the form of CFD or DEM is an area with increasing focus in terms of modelling approach to granulation processes. This text provides a beginners guide to hydrodynamic modelling with focus on agglomeration processes. The basic terms and principles are introduced including Eulerian and Langrangian models. Thus, you will be familiar with the basic principles and theory within this interesting field on a bachelor or master-of-science level.

Home page url

Download or read it online for free here:
Download link
(4.9MB, PDF)

Similar books

Book cover: Chemical PrinciplesChemical Principles
by - Benjamin/Cummings
A general university chemistry textbook, it provides an overview of chemistry for nonspecialists and a foundation for later study for chemistry majors. The text introduces different areas of chemistry: inorganic, nuclear, organic, and biochemistry.
(28846 views)
Book cover: Surface Chemistry and CatalysisSurface Chemistry and Catalysis
by - MDPI AG
The book covers some of the recent advances in the field of heterogeneous catalysis that can be obtained by advanced characterization techniques, computational calculations and time-resolved methods, with emphasis on structure-activity relationships.
(9106 views)
Book cover: Advanced Maths for ChemistsAdvanced Maths for Chemists
by - Bookboon
The third of a three part series of texts designed for a first-year university course. Tutorial questions with solutions are used to help the students to self-pace themselves. Colored molecular structures, graphs and diagrams bring the text alive.
(13055 views)
Book cover: Electrically Driven Membrane ProcessesElectrically Driven Membrane Processes
by - BookBoon
Electrically driven membrane processes will be introduced in this book. Important terms such as critical current density, desalination degree, and current efficiency will be described through illustrations and a large amount of examples.
(11317 views)