UROP Project Listing System
Project Title:
Particle Entrainment Mechanisms at the Base of a Slurry Reactor
Supervisor:MAK Andrew Tsz Chung
Project Description:Mass transfer may be presented as a product of mass transfer rate and interfacial area. In a solid-liquid system, the interfacial area is maximized when all the solid particles are in contact with the fluid. However, how solid particles are actually being entrained at the base of a stirred vessel reactor is not yet fully understood. The equipment manufacturers typically based their design on empirical correlations with a relatively large safety margin. This does not only increase the capital and energy costs but may cause many operating issues downstream such as particle breakdown. It is believe that the particles are likely to be picked up by a combination of mechanisms pending on the operation conditions. For examples, a particle is likely to be picked up by turbulence at a low viscosity environment whilst particles with a less demanding duty can easily be entrained by flow, which is less energy intensive than turbulence dominated environment.
Course type:UROP1000 UROP1100 UROP2100 UROP3100 UROP4100 
Applicant's Roles:The student is expected to investigate how solid particles are being picked up/ entrained on a stirred vessel base. One may start with a simple force balance between weight, buoyancy, drag and lift or energy balance between the kinetic energy provided by the turbulence against potential energy required to lift a particle. He or she should study similar mechanism in other systems and see if any of them can be adopted for stirred vessels (eg sand at tidal movement, fluidized bed and hydro-transportation). The student can then go on to weight/ verify the different hypotheses by using experimental data extracted from past literatures.  
Applicant's Learning Objectives:Literature survey Basic understanding on multiphase fluid mechanics The ability to be able to review paper/ hypothesis critically Model building & verification 
Complexity of the project:Moderate 

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