Wet Granular Flow in Hoppers by Discrete Element Method

Mahbubur Rahman; Hai Ping Zhu

doi:10.4028/www.scientific.net/AMR.396-398.340

Paper Titles

Characteristics of Mixing/Segregation in a Bubbling/Slugging Fluidized Bed with Binary Mixtures
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Low Cycle Fatigue of GX12CrMoVNbN9 -1 Cast Steel at 600°C Temperature
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Bovine Serum Albumin Modified Mg-Al Layered Double Oxides Nanohybrids: Preparation and Potential Application as Drug Carrier
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Study on Corrosion Process of Lead Alloy Anode in Plating Solution of Tin Free Steel
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Wet Granular Flow in Hoppers by Discrete Element Method
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The Research of Carbonization and Deoxidizing V₂O₅ at Low Temperature
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High Temperature Brittleness of Non-Oriented Electrical Steel Containing Phosphrous
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Numerical Simulation of the Gas-Solid Flow in a Mini-Riser Reactor
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Fabrication of Super-Hydrophobic Membrane with Hydrophilic Polyethersulphone
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Wet Granular Flow in Hoppers by Discrete Element Method

Abstract:

This paper presents a comparison numerical study of the dry and wet granular flows in a cylindrical hopper with flat bottom by means of the discrete element method. A cohesion model is used to examine the impact of moisture presence in hopper flow. It is found that with the increase of Bond number, the discharge rate decreases. The particle force structure inside the hopper is investigated to explain the reason of the lower discharge rate for the wet particle cases. Compared with the dry particle case, in the wet particle case there are more force chains in the transitional zone and near orifice, which causes the lower flowability of particles.