Maximilian Fahland scite author profile

Maximilian Fahland

2Publications

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70Citation Statements Given

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Dublin City University

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Computational model and simulations of contact angle and geometry effects on centrifugal microfluidic step-emulsification

Fahland

Mishra

2023

Preprint

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The generation of droplets in microfluidic systems is extensively applied in various chemical and biological applications. For two-phase immiscible micro-droplet formation, both actively and passively driven systems being employed. Active systems typically include pump-based, magnetic actuation or centrifugal flow control-based methods that employ cross-flowing, flow-focusing or co-flowing microfluidic architecture to assist formation. Numerical modelling using computational fluid dynamics (CFD) allows for an in-silico approach in the understanding of the micro-droplet formation behaviour and the effect of several parameters on the size and rate of droplet formation. Although several such models have been presented previously for pump driven cross-flowing, flow focusing or co-flowing microfluidic architectures, systems typically employing centrifugal actuation methods are limited. We investigate here a CFD method for modelling and simulating step-emulsification of water-in-oil, on a centrifugal microfluidics platform. The effects of contact angles, supply channel geometry and capillary number were studied using the numerical model and compared to experimental data from previous work.

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Computational model and simulations of contact angle and geometry effects on centrifugal microfluidic step-emulsification

Fahland

Mishra

2023

Microfluid Nanofluid

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