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Items: 1 to 20 of 107

1.

Lattice Boltzmann numerical simulation and experimental research of dynamic flow in an expansion-contraction microchannel.

Jiang D, Sun D, Xiang N, Chen K, Yi H, Ni Z.

Biomicrofluidics. 2013 Jun 26;7(3):34113. doi: 10.1063/1.4812456. eCollection 2013.

2.

Numerical study of active control of mixing in electro-osmotic flows by temperature difference using lattice Boltzmann methods.

Alizadeh A, Wang JK, Pooyan S, Mirbozorgi SA, Wang M.

J Colloid Interface Sci. 2013 Oct 1;407:546-55. doi: 10.1016/j.jcis.2013.06.026. Epub 2013 Jun 26.

PMID:
23859813
3.

Chebyshev collocation spectral lattice Boltzmann method for simulation of low-speed flows.

Hejranfar K, Hajihassanpour M.

Phys Rev E Stat Nonlin Soft Matter Phys. 2015 Jan;91(1):013301. Epub 2015 Jan 7.

PMID:
25679733
4.

Filter-matrix lattice Boltzmann model for microchannel gas flows.

Zhuo C, Zhong C.

Phys Rev E Stat Nonlin Soft Matter Phys. 2013 Nov;88(5):053311. Epub 2013 Nov 25.

PMID:
24329383
5.

Dean-flow-coupled elasto-inertial three-dimensional particle focusing under viscoelastic flow in a straight channel with asymmetrical expansion-contraction cavity arrays.

Yuan D, Zhang J, Yan S, Pan C, Alici G, Nguyen NT, Li WH.

Biomicrofluidics. 2015 Jul 29;9(4):044108. doi: 10.1063/1.4927494. eCollection 2015 Jul.

7.

Flow in a simple model skeletal muscle ventricle: comparison between numerical and physical simulations.

Henry FS, Shortland AP, Iudicello F, Black RA, Jarvis JC, Collins MW, Salmons S.

J Biomech Eng. 1997 Feb;119(1):13-9.

PMID:
9083844
8.

Taylor-series expansion and least-squares-based lattice Boltzmann method: Two-dimensional formulation and its applications.

Shu C, Niu XD, Chew YT.

Phys Rev E Stat Nonlin Soft Matter Phys. 2002 Mar;65(3 Pt 2B):036708. Epub 2002 Mar 6.

PMID:
11909308
9.

Inertial separation in a contraction-expansion array microchannel.

Lee MG, Choi S, Park JK.

J Chromatogr A. 2011 Jul 8;1218(27):4138-43. doi: 10.1016/j.chroma.2010.11.081. Epub 2010 Dec 5.

PMID:
21176909
10.

Focusing particles by induced charge electrokinetic flow in a microchannel.

Song Y, Wang C, Li M, Pan X, Li D.

Electrophoresis. 2016 Feb;37(4):666-75. doi: 10.1002/elps.201500361.

PMID:
26640123
11.

Mesoscopic simulation of single DNA dynamics in rotational flows.

Ranjith SK.

Eur Phys J E Soft Matter. 2015 Aug;38(8):89. doi: 10.1140/epje/i2015-15089-0. Epub 2015 Aug 28.

PMID:
26314257
12.
13.

Slanted spiral microfluidics for the ultra-fast, label-free isolation of circulating tumor cells.

Warkiani ME, Guan G, Luan KB, Lee WC, Bhagat AA, Chaudhuri PK, Tan DS, Lim WT, Lee SC, Chen PC, Lim CT, Han J.

Lab Chip. 2014 Jan 7;14(1):128-37. doi: 10.1039/c3lc50617g.

PMID:
23949794
14.

Vortex chain formation in regions of ion concentration polarization.

Hanasoge S, Diez FJ.

Lab Chip. 2015 Sep 7;15(17):3549-55. doi: 10.1039/c5lc00558b. Epub 2015 Jul 22.

PMID:
26198565
15.

Continuous particle separation in spiral microchannels using Dean flows and differential migration.

Bhagat AA, Kuntaegowdanahalli SS, Papautsky I.

Lab Chip. 2008 Nov;8(11):1906-14. doi: 10.1039/b807107a. Epub 2008 Sep 24.

PMID:
18941692
16.

Dean instability in double-curved channels.

Debus JD, Mendoza M, Herrmann HJ.

Phys Rev E Stat Nonlin Soft Matter Phys. 2014 Nov;90(5-1):053308. Epub 2014 Nov 21.

PMID:
25493905
17.

Hydrodynamic control of the interface between two liquids flowing through a horizontal or vertical microchannel.

Stiles PJ, Fletcher DF.

Lab Chip. 2004 Apr;4(2):121-4. Epub 2004 Feb 12.

PMID:
15052351
18.

Lattice Boltzmann simulations of droplet formation during microchannel emulsification.

van der Zwan E, van der Sman R, Schro├źn K, Boom R.

J Colloid Interface Sci. 2009 Jul 1;335(1):112-22. doi: 10.1016/j.jcis.2009.03.060. Epub 2009 Apr 5.

PMID:
19398107
19.

Human red blood cell behavior under homogeneous extensional flow in a hyperbolic-shaped microchannel.

Yaginuma T, Oliveira MS, Lima R, Ishikawa T, Yamaguchi T.

Biomicrofluidics. 2013 Sep 24;7(5):54110. doi: 10.1063/1.4820414. eCollection 2013.

20.

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