Archivio Istituzionale della RicercaTwo numerical models for studying the dynamics of formation and rise of single bubbles in high-viscosity ionic liquids were implemented using the level-set method. The models describe two stages of bubble dynamics: bubble formation at the inlet nozzle and bubble displacement across the column. The models were experimentally validated through a laboratory-scale bubble column using water-glycerol mixtures and two imidazolium-type ionic liquids. The models were consistent with the experimental tests for Reynolds numbers < 5. Outside this range, the models tend to underestimate the bubble terminal velocity, which can be explained by the effect of the high velocity and pressure gradients close to the gas-liquid interface. The models also predicted the velocity and pressure fields near the bubble surface before and after detachment.
Numerical Simulation of Single-Bubble Dynamics in High-Viscosity Ionic Liquids Using the Level-Set Method / Danilo, Carvajal; Carlos, Carlesi; Victor Meléndez, Vejar; Dreidy Vásquez, Sandoval; MONTEVERDE VIDELA, ALESSANDRO HUGO; Bensaid, Samir. - In: CHEMICAL ENGINEERING & TECHNOLOGY. - ISSN 0930-7516. - STAMPA. - 38:3(2015), pp. 473-481. [10.1002/ceat.201400449]
Numerical Simulation of Single-Bubble Dynamics in High-Viscosity Ionic Liquids Using the Level-Set Method
MONTEVERDE VIDELA, ALESSANDRO HUGO;BENSAID, SAMIR
2015
Abstract
Two numerical models for studying the dynamics of formation and rise of single bubbles in high-viscosity ionic liquids were implemented using the level-set method. The models describe two stages of bubble dynamics: bubble formation at the inlet nozzle and bubble displacement across the column. The models were experimentally validated through a laboratory-scale bubble column using water-glycerol mixtures and two imidazolium-type ionic liquids. The models were consistent with the experimental tests for Reynolds numbers < 5. Outside this range, the models tend to underestimate the bubble terminal velocity, which can be explained by the effect of the high velocity and pressure gradients close to the gas-liquid interface. The models also predicted the velocity and pressure fields near the bubble surface before and after detachment.
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https://hdl.handle.net/11583/2589357
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