Modeling study on axial wetting length of meniscus in vertical rectangular microgroovesXUELEI NIE; XUEGONG HU; DAWEI TANG et al.Applied thermal engineering. 2013, Vol 52, Num 2, pp 615-622, issn 1359-4311, 8 p.Article

Investigation on meniscus shape and flow characteristics in open rectangular microgrooves heat sinks with micro-PIVDONG YU; XUEGONG HU; CHAOHONG GUO et al.Applied thermal engineering. 2013, Vol 61, Num 2, pp 716-727, issn 1359-4311, 12 p.Article

The depth of correlation in micro-PIV for high numerical aperture and immersion objectivesBOURDON, Christopher J; OLSEN, Michael G; GORBY, Allen D et al.Journal of fluids engineering. 2006, Vol 128, Num 4, pp 883-886, issn 0098-2202, 4 p.Article

Steady and unsteady flow analysis in microdiffusers and micropumps: a critical reviewNABAVI, Majid.Microfluidics and nanofluidics (Print). 2009, Vol 7, Num 5, pp 599-619, issn 1613-4982, 21 p.Article

Improved accuracy of time-resolved micro-Particle Image Velocimetry using phase-correlation and confocal microscopyRABEN, Jaime S; KLEIN, Steven A; POSNER, Jonathan D et al.Microfluidics and nanofluidics (Print). 2013, Vol 14, Num 3-4, pp 431-444, issn 1613-4982, 14 p.Article

Characteristics of liquid slugs in gas-liquid Taylor flow in microchannelsZALOHA, Petr; KRISTAL, Jiri; JIRICNY, Vladimir et al.Chemical engineering science. 2012, Vol 68, Num 1, pp 640-649, issn 0009-2509, 10 p.Article

Determination of microchannels geometric parameters using micro-PIVSILUA, Goncalo; LEAL, Nuno; SEMIAO, Viriato et al.Chemical engineering research & design. 2009, Vol 87, Num 3, pp 298-306, issn 0263-8762, 9 p.Article

μPIV methodology using model systems for flow studies in heterogeneous biopolymer gel microstructuresSOTT, Kristin; GEBÄCK, Tobias; PIHL, Maria et al.Journal of colloid and interface science. 2013, Vol 398, pp 262-269, issn 0021-9797, 8 p.Article

Microfluidic characteristics of a multi-holed baffle plate micro-reactorMOGHTADERI, Behdad; SHAMES, Iman; DJENIDI, L et al.International journal of heat and fluid flow. 2006, Vol 27, Num 6, pp 1069-1077, issn 0142-727X, 9 p.Article

Multiscale hydrodynamic investigation to intensify the biogas production in upflow anaerobic reactorsJIANKAI JIANG; JING WU; JINBAI ZHANG et al.Bioresource technology. 2014, Vol 155, pp 1-7, issn 0960-8524, 7 p.Article

Uniform Flow Control for a Multipassage Microfluidic SensorSOLOVITZ, Stephen A; JIHENG ZHAO; WEI XUE et al.Journal of fluids engineering. 2013, Vol 135, Num 2, issn 0098-2202, 021101.1-021101.8Article

Development of micro-vibrating flow pumps using MEMS technologiesOMRAN OSMAN, Osman; SHINTAKU, Hirofumi; KAWANO, Satoyuki et al.Microfluidics and nanofluidics (Print). 2012, Vol 13, Num 5, pp 703-713, issn 1613-4982, 11 p.Article

Bubble nucleation and growth in fluidsFRANK, Xavier; DIETRICH, Nicolas; JING WU et al.Chemical engineering science. 2007, Vol 62, Num 24, pp 7090-7097, issn 0009-2509, 8 p.Conference Paper

The application of μPIV technique in the study of magnetic flows in a micro-channelNGUYEN, N. T; WU, Z. G; HUANG, X. Y et al.Journal of magnetism and magnetic materials. 2005, Vol 289, pp 396-398, issn 0304-8853, 3 p.Conference Paper

Induced-charge electro-osmosis of polymer-containing fluid around a metallic rodCANPOLAT, Cetin; SHIZHI QIAN; BESKOK, Ali et al.Microfluidics and nanofluidics (Print). 2014, Vol 16, Num 1-2, pp 247-255, issn 1613-4982, 9 p.Article

Micro-PIV measurements of induced-charge electro-osmosis around a metal rodCANPOLAT, Cetin; SHIZHI QIAN; BESKOK, Ali et al.Microfluidics and nanofluidics (Print). 2013, Vol 14, Num 1-2, pp 153-162, issn 1613-4982, 10 p.Article

Nano-resolution flow measurement based on single pixel evaluation PIVCHUANG, Han-Sheng; LICHUAN GUI; WERELEY, Steven T et al.Microfluidics and nanofluidics (Print). 2012, Vol 13, Num 1, pp 49-64, issn 1613-4982, 16 p.Article

Optical measurement of pore scale velocity field inside microporous mediaSEN, Debjyoti; NOBES, David S; MITRA, Sushanta K et al.Microfluidics and nanofluidics (Print). 2012, Vol 12, Num 1-4, pp 189-200, issn 1613-4982, 12 p.Article

Gas―liquid flow stability and bubble formation in non-Newtonian fluids in microfluidic flow-focusing devicesTAOTAO FU; YOUGUANG MA; FUNFSCHILLING, Denis et al.Microfluidics and nanofluidics (Print). 2011, Vol 10, Num 5, pp 1135-1140, issn 1613-4982, 6 p.Article

Novel micro-PIV study enables a greater understanding of nanoparticle suspension flows: nanofluidsWALSH, Patrick A; EGAN, Vanessa M; WALSH, Edmond J et al.Microfluidics and nanofluidics (Print). 2010, Vol 8, Num 6, pp 837-842, issn 1613-4982, 6 p.Article

Methods for counting particles in microfluidic applicationsHONGPENG ZHANG; CHAN HEE CHON; XINXIANG PAN et al.Microfluidics and nanofluidics (Print). 2009, Vol 7, Num 6, pp 739-749, issn 1613-4982, 11 p.Article

Analysis of turbulence in a micro-channel emulsifierBLONSKI, Slawomir; KORCZYK, Piotr M; KOWALEWSKI, Tomasz A et al.International journal of thermal sciences. 2007, Vol 46, Num 11, pp 1126-1141, issn 1290-0729, 16 p.Article

A microfluidic flow-converter based on a double-chamber planar micropumpHSU, Chia-Jui; SHEEN, Horn-Jiunn.Microfluidics and nanofluidics (Print). 2009, Vol 6, Num 5, pp 669-678, issn 1613-4982, 10 p.Article

Induced-Charge Electroosmosis Around Touching Metal RodsCANPOLAT, Cetin; MINGKAN ZHANG; ROSEN, William et al.Journal of fluids engineering. 2013, Vol 135, Num 2, issn 0098-2202, 021103.1-021103.10Article

Unsteady flow behaviors in an obstacle-type valveless micropump by micro-PIVSHEEN, H. J; HSU, C. J; WU, T. H et al.Microfluidics and nanofluidics (Print). 2008, Vol 4, Num 4, pp 331-342, issn 1613-4982, 12 p.Article