22–25 May 2023
Europe/London timezone

The permeability of pillar arrays in microfluidic devices: an application of Brinkman’s theory towards wall friction

24 May 2023, 14:30
15m
Oral Presentation (MS11) Microfluidics and nanofluidics in porous systems MS11

Speaker

Dr Wouter den Otter (University of Twente)

Description

Darcy’s law describes the flow of Newtonian fluids through bulk porous media as the product of the applied pressure difference, the fluid’s viscosity and the medium’s permeability. Brinkman extended Darcy’s law with a viscous stress term, thereby enabling boundary conditions to the flow field at the surface of the medium. The validity of Brinkman’s term, and the value of its effective viscosity, have been heavily debated since their introduction nearly 75 years ago. We use experiments and Multibody Dissipative Particle Dynamics (MDPD) simulations to study flows through ordered and disordered pillar arrays in microfluidic channels of limited height. We find that the simulated velocity profiles are well described by an expedient interpretation of Brinkman’s theory. Depending on the solid volume fraction and pillar arrangement, the effective viscosity varies between two and three times the bulk fluid viscosity. The calculated effective permeabilities of the flow devices, combining the flow resistances due to the pillars and the walls by Brinkman’s theory, agree well with the experimental data. This approach enables fast and accurate estimates of the effective permeability of micropillared chips. The simulated force distributions over the walls and pillars require an effective viscosity equal to the bulk viscosity and an elevation-dependent permeability of the pillar array.

References

The permeability of pillar arrays in microfluidic devices: an application of Brinkman's theory towards wall friction,
Thejas Hulikal Chakrapani, Hanieh Bazyar, Rob Lammertink, Stefan Luding, Wouter K. den Otter, Soft Matter, 2023, DOI: 10.1039/d2sm01261h

Participation In-Person
Country The Netherlands
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Primary author

Thejas Hulikal Chakrapani (Technical University of Delft)

Co-authors

Dr Hanieh Bazyar (TU Delft) Prof. Rob Lammertink (University of Twente) Prof. Stefan Luding (University of Twente) Dr Wouter den Otter (University of Twente)

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