Litcius/Paper detail

Leveraging 3D Printing for the Design of High-Performance Venturi Microbubble Generators

Yirong Feng, Hongfeng Mu, Xi Liu, Zhengliang Huang, Haomiao Zhang, Jingdai Wang, Yongrong Yang

2020Industrial & Engineering Chemistry Research48 citationsDOI

Abstract

We present a miniaturized microbubble generator via three-dimensional (3D) printing for potential use in gas–liquid chemical reactions. We design it based on venturi channel structures to enable continuous gas dispersion by turbulent interactions and fabricate it using 3D printing for its high design flexibility and fast manufacturing speed. By experiments using water and nitrogen, we discuss quantitatively the dependence of the formed microbubble characteristics on operating conditions and geometric parameters. In particular, predictive models of Sauter mean diameter of daughter bubbles are proposed to help select proper operating and design parameters in order to achieve the desired level of microbubbles. To further improve the performance, we explore series- and parallel-venturi configurations and find that the parallel-based assembly performs significantly better. Therefore, we prove that the 3D printed venturi microbubble generator has high potential for the flow chemistry community to implement gas–liquid reactions.

Topics & Concepts

Venturi effectGenerator (circuit theory)3D printingMicrobubblesComputer scienceFlexibility (engineering)Flow (mathematics)TurbulenceMechanical engineeringSauter mean diameterMaterials scienceProcess engineeringAcousticsMechanicsNozzleUltrasoundEngineeringPower (physics)InletStatisticsPhysicsMathematicsQuantum mechanicsInnovative Microfluidic and Catalytic Techniques InnovationFluid Dynamics and MixingHeat Transfer and Boiling Studies
Leveraging 3D Printing for the Design of High-Performance Venturi Microbubble Generators | Litcius