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Units : TIPs - Transport phenomena and process engineering | ULB828
In this research project, we aim to describe the transport phenomena (mass and momentum) taking place inside and around a bubble/drop within a gas-liquid contactor. By combining theoretical (balance equations, stability analysis, asymptotic techniques...), numerical (commercial codes, “home-made” codes) and experimental tools (essentially implementing optical diagnostic techniques: shadowing or interferometry), we can obtain original results, related for example to the dynamics of bubbles in microchannels (paying a special attention to the inertial and capillary migration forces, as well as to the role of surfactants.), the dynamics and morphology of unconfined ellipsoidal bubbles or the coupling between flow, bubble-liquid or gas-droplet mass transfer and chemical reaction. Selected publications : Atasi, O., Haut, B., Pedrono, A., Scheid, B., & Legendre, D. Infuence of soluble surfactants and deformation on the dynamics of centered bubbles in cylindrical microchannels. Langmuir (published online). 2018 Rivero-Rodriguez, J., & Scheid, B. Bubble dynamics in microchannels: internial and capillary migration forces. Jounal of Fluid Mechanics, 842, 215-247. 2018 Mikaelian D., Haut B., & Scheid B., Bubbly flow and gas-liquid mass transfer in square and circular microchannels for stress-free and rigid interfaces: dissolution model, Microfluidics & Nanofluidics, 19, 899-911. 2015 Mikaelian, D., Larcy, A., Cockx, A., Wylock, C., & Haut, B. Dynamics and morphology of single ellipsoidal bubbles in liquids. Experimental Thermal and Fluid Science, 64, 1-12. 2015
Web site: https://tips-ulb.be/research-topics/gas-liquid-transfers
• F.R.S.-FNRS et Fonds associés (hors FRIA)
• Région bruxelloise
• Entreprises étrangères