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                                                  Asymmetric Capillary Particle Collection

                                                  Published:

                                                  02 March 2018

                                                  This collection includes datasets concerned with a theoretical investigation of particle transport in longitudinally asymmetric but axially symmetric capillaries, allowing for the influence of both diffusion and convection. In this study attention is focused on characterizing the influence of tube geometry and applied hydraulic pressure on the magnitude, direction and rate of transport of particles in axi-symmetric, saw-tooth shaped tubes. Three initial value problems are considered. The first involves the evolution of a fixed number of particles initially confined to a central wave-section. The second involves the evolution of the same initial state but including an ongoing production of particles in the central wave-section. The third involves the evolution of particles in a fully laden tube. Based on a physical model of convective-diffusive transport, assuming an underlying oscillatory fluid velocity field that is unaffected by the presence of the particles, we find that transport rates and even net transport directions depend critically on the design specifics, such as tube geometry, flow rate, initial particle configuration and whether or not particles are continuously introduced. The second transient scenario is qualitatively independent of the details of how particles are generated. In the third scenario there is no net transport. This fundamental study could engender greater understanding of practical systems, such as particle transport in periodic micro- and nano-ratchets.

                                                  This collection includes the following datasets

                                                  Asymmetric Capillary Particle Datasets

                                                  Data and resources

                                                  Other resources collected by the researchers may be available subject to researcher approval. Please contact Prof Stan Miklavcic.

                                                  This collection is related to the following projects

                                                  Fluid and Mass Transport in Microfluidic Capillaries

                                                  Period covered by the dataset

                                                  Start date: 01 Jan 2016
                                                  End date: 31 Dec 2016

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                                                  Data citation

                                                  Islam, N, Miklavcic, S, Hajek, B, White, L 2018, Asymmetric Capillary Particle Collection, University of South Australia, viewed 21 November 2024, retrieved from <https://data.unisa.edu.au/dap/Collection.aspx?CollectionID=278885>.