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Geometrical Optimization of a Venturi-Type Microbubble Generator Using CFD Simulation and Experimental Measurements

Dillon Alexander Wilson, Kul Pun, P. Ganesan, Faik Hamad

2021Designs30 citationsDOIOpen Access PDF

Abstract

Microbubble generators are of considerable importance to a range of scientific fields from use in aquaculture and engineering to medical applications. This is due to the fact the amount of sea life in the water is proportional to the amount of oxygen in it. In this paper, experimental measurements and computational Fluid Dynamics (CFD) simulation are performed for three water flow rates and three with three different air flow rates. The experimental data presented in the paper are used to validate the CFD model. Then, the CFD model is used to study the effect of diverging angle and throat length/throat diameter ratio on the size of the microbubble produced by the Venturi-type microbubble generator. The experimental results showed that increasing water flow rate and reducing the air flow rate produces smaller microbubbles. The prediction from the CFD results indicated that throat length/throat diameter ratio and diffuser divergent angle have a small effect on bubble diameter distribution and average bubble diameter for the range of the throat water velocities used in this study.

Topics & Concepts

Venturi effectComputational fluid dynamicsDiffuser (optics)MechanicsBubbleVolumetric flow rateMaterials scienceThroatRange (aeronautics)Flow (mathematics)MicrobubblesMechanical engineeringAcousticsPhysicsOpticsEngineeringComposite materialUltrasoundInletMedicineLight sourceAnatomyFluid Dynamics and MixingMinerals Flotation and Separation TechniquesMetallurgical Processes and Thermodynamics
Geometrical Optimization of a Venturi-Type Microbubble Generator Using CFD Simulation and Experimental Measurements | Litcius