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Particles motion Prepared by: Arman Safdari. Industrial Application Spray drying.

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Presentation on theme: "Particles motion Prepared by: Arman Safdari. Industrial Application Spray drying."— Presentation transcript:

1 particles motion Prepared by: Arman Safdari

2 Industrial Application Spray drying

3 Cyclone separator (pollution control)

4 Pneumatic transport

5 Transport systems

6 Venturi scrubber

7 Manifold and fuel injection systems 1- carburetor 2- fuel injection in inlet manifold 3- FSI some videos are available

8 Particle equations Contact force (Normal vector force) Damping force (Normal vector force) Contact force (tangential force) Damping force ( tangential force)

9 Magnus force The Magnus effect is the phenomenon whereby a spinning object flying in a fluid creates a whirlpool of fluid around itself. A video is available

10 Drag force

11 gravitational force

12 Particle forces equation

13

14 Particle-Wall interaction

15 Case 1 : The particle stops sliding in the compression period

16 Case 2 : The particle stops sliding in the recovery period

17 Case 3 : The particle continues to slide throughout the compression and recovery periods

18 Particle-Particle interaction - Hard sphere model - Soft sphere model

19 Hard sphere model

20 Soft sphere model

21 Stickiness particle (Cohesive force) Inter-particle forces due to the wetness of particle surfaces, due to electrostatic charges and the van der Waals’ forces are known to cause adhesion of particle To a wall or to another particle

22 - Force due to a liquid bridge - Electrostatic force

23 - Van der Waals forces Molecules can attract each other at moderate distances and repel each other at close range. The attractive forces are collectively called "van der Waals forces" Adhesive foot hairs, or setae, on the tokay gecko are remarkably sticky: a single seta can generate up to200 (micro N) of force. Geckos use this adhesive to rapidly and repeatedly navigate a wide variety of surfaces. They can even climb vertically on smooth surfaces at a speed >1 m/s.

24 Solid particle agglomeration Agglomeration of solid particles occurs, when two particles collide and deform, energy is dissipated during collision. If the energy dissipated is greater than the impact kinetic energy, there is no energy available for particle rebound. Because of different morphologies and shapes, it is virtually impossible to determine the fluid dynamic forces on the agglomerates. A video is available

25 Algorithm of particles collision

26 Thank you

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