期刊
MICROMACHINES
卷 12, 期 6, 页码 -出版社
MDPI
DOI: 10.3390/mi12060592
关键词
electrowetting; droplet detachment; micro-structured surfaces; numerical modelling
This study demonstrates the potential capabilities of a continuum-level, sharp-interface modelling approach for simulating droplet detachment and jumping dynamics over solid surfaces under electrowetting actuation. Preliminary calculations reveal a significant connection between substrate micro-topography and energy efficiency, which could be extended to optimal design of micro-structured solid surfaces for droplet removal.
Detachment and jumping of liquid droplets over solid surfaces under electrowetting actuation are of fundamental interest in many microfluidic and heat transfer applications. In this study we demonstrate the potential capabilities of our continuum-level, sharp-interface modelling approach, which overcomes some important limitations of convectional hydrodynamic models, when simulating droplet detachment and jumping dynamics over flat and micro-structured surfaces. Preliminary calculations reveal a considerable connection between substrate micro-topography and energy efficiency of the process. The latter results could be extended to the optimal design of micro-structured solid surfaces for electrowetting-induced droplet removal in ambient conditions.
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