Authors: Cătălin Mărculescu, Andrei Avram, Cătălin Pârvulescu, Marioara Avram, Cătălin Mihai Bălan

Abstract:

The present microfluidic study is emphasizing the flow behavior within a Y shape micro-bifurcation in two similar flow configurations. We report here a numerical and experimental investigation on the velocity profiles evolution and secondary flows, manifested at different Reynolds numbers (Re) and for two different boundary conditions. The experiments are performed using special designed setup based on optical microscopic devices. With this setup, direct visualizations and quantitative measurements of the path-lines are obtained. A Micro-PIV measurement system is used to obtain velocity profiles distributions in a spatial evolution in the main flows domains. The experimental data is compared with numerical simulations performed with commercial computational code FLUENT in a 3D geometry with the same dimensions as the experimental one. The numerical flow patterns are found to be in good agreement with the experimental manifestations.

Keywords: Micro-PIV, numerical investigations, secondary flows, velocity profiles.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1335530

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References:

[1] H. A. Stone, A. D. Stroock, A. Ajdari, "Engineering flows in small devices: microfluidics toward a Lab-on-a-chip”, J. Annu Rev. Fluid Mech. Vol. 36, 2004, pp. 381-411.
[2] C. X. Zhao, A. P. J.Middelberg, "Two-phase microfluidic flows”, J. Chemichal Eng. Sci., Vol. 66, 2011, pp. 1394-1411.
[3] S. T. Wereley, C. D. Meinhart, "Recent advances in Micro-Particle Image Velocimetry”, Annu. Rev. Fluid Mech., Vol. 42, 2010, pp. 557- 576.
[4] S. T. Wereley, C. D. Meinhart, Micron-resolution particle image velocimetry, In: Breuer KS (ed) Microscale diagnostic techniques, Springer, Berlin, 2004.
[5] C. D. Meinhart, S. T. Wereley, M. H. B. Gray, "Volume illumination for two-dimensional particle image velocimetry”. MeasSciTechnol, Vol. 11, 2000, pp. 809–814.
[6] M. G.Olsen, R. J. Adrian, "Out-of-focus effects on particle image visibility and correlation in microscopic particle image velocimetry”, Exp. Fluids, Vol. 29, 2000, S166–S174.
[7] M. Gad-el-Hak, the MEMS handbook. CRC Press, 2002, Boca Raton.
[8] S. Kim, S.J. Lee, "Measurement of Dean flow in a curved micro-tube using micro digital holographic particle tracking velocimetry” Exp Fluids, 2009, Vol. 46, pp. 255-264.
[9] S.S. Kuntaegowdanahalli, A.A.S. Bhagat, G. Kumar, I. Papautsky, "Inertial microfluidics for continuous particle separation in spiral microchannels” Lab on a Chip, 2009, Vol. 9, pp. 2973-2980.
[10] A.A.S. Bhagat, S.S. Kuntaegowdanahalli, I. Papautsky, "Continuous particle separation in spatial microchannels using dean flows and different migration” Lab on a Chip, 2008, Vol. 8, pp. 1906-1914.
[11] C. M. Balan, D. Broboana, C. Balan, "Investigation of vortex formation in microbifurcations” Microfluid Nanofluid, 2012, doi 10.1007/s 10404- 012-1005-8.