Microfluidics is a rapidly growing research area focusing on flows in micro channels in applications such as MEMS, Lab-on-a-chip systems and other microfluidic devices. Several techniques, including MicroPIV and MicroLIF, can be applied for measurement of velocity, temperature, concentration, droplet size, and pH with micron scale resolution.
We offer system configurations designed for each individual application, providing two-component (2C) and three-component (3C) velocity measurements in a plane (2D). Simultaneous measurement of velocity and scalar quantities is also possible, requiring special multiple-detector systems.
The conventional µPIV system has been the workhorse to perform accurate 2C velocity measurements in micro scale, featuring the HiPerformance inverted fluorescence microscope with a specially optimized filter cube.
The new Stereo µPIV system provides researchers a unique opportunity to perform accurate flow measurements in micro scale. The system provides all three velocity components with high magnification, high resolution, adjustable field depth control, and superior measurement accuracy.
Unique to the new Stereo µPIV solution is the dedicated calibration kit, required to perform stereoscopic image calibrations in micro scale. Instead of relying on a simple linear ray tracing model for optical aberration, we offer a dedicated, accurate and precise calibration solution.
Microfluidics measurement systems designed by Dantec Dynamics have three common features: improved laser safety, optimized signal-to-noise ratio, and flexibility in image processing. First, a number of opto-mechanical components are used to ensure user safety, including laser safety interlocks and flexible light guides. Second, the optical components of the system are designed to maximize the signal-to-noise ratio of the measurement. Finally, the systems are delivered with DynamicStudio software, where image acquisition and advanced processing functions are implemented.
Measurement Principle
Particle Image Velocimetry (PIV) is a whole-flow-field technique providing instantaneous velocity vector measurements in a cross-section of a flow.
Solution Sheet
Read more about Micro PIV systems from Dantec.
Solution Sheet
Read more about Stereo µPIV systems from Dantec.
Solution Sheet
Read more about MicroLIF systems from Dantec.
Components
HiPerformance Inverted Microscope
HiPerformance Inverted Microscope
Private: DynamicStudio for Planar and Tomo PIV and PTV
Private: DynamicStudio for Planar and Tomo PIV and PTV
PIV lasers for 10-200 Hz Systems
PIV lasers for 10-200 Hz Systems
Double Frame Cameras
Double Frame Cameras
TR-PIV lasers for 0.5-20 kHz systems
TR-PIV lasers for 0.5-20 kHz systems
Time Resolved Cameras
Time Resolved Cameras
Synchronizers
Synchronizers
MicroPIV Starter Kit
MicroPIV Starter Kit
Motorized XYZ stage
Motorized XYZ stage
Seeding Materials
Seeding Materials
PCs and Workstations
PCs and Workstations
Application Notes
Analysis of 4th International PIV Challenge Case A
Analysis of 4th International PIV Challenge Case A
Modal analysis in a micromixer
Modal analysis in a micromixer
Time-Resolved Velocity Measurements of Droplet Formation in a Flow Focusing Junction
Time-Resolved Velocity Measurements of Droplet Formation in a Flow Focusing Junction
Investigation on flow patterns and local stresses in sharp-edged and pyramidal orifices during high-pressure homogenization
Investigation on flow patterns and local stresses in sharp-edged and pyramidal orifices during high-pressure homogenization
Multi-Parameter Measurements in a Micromixer
Multi-Parameter Measurements in a Micromixer
Download Library
TITLE
AUTHOR(S)
YEAR
DOWNLOAD FILE
TITLE
Stereoscopic MicroPIV Measurements in A Labyrinth-Channel Dripper Used in Micro-Irrigation Systems
AUTHOR(S)
F. Gökhan Ergin, Muriel Amielh, Severine Tomas, Jafar Al-Muhammad, Jean-Jacques Lasserre, Fabien Anselmet
YEAR
2022
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PDFAUTHOR(S)
F. Gökhan Ergin, Jimmy Olofsson, Per Petersson, Nicolai Fog Gade-Nielsen
YEAR
2020
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ScienceDirectAUTHOR(S)
Laurentiu Moruz, Jens Kitzhofer, David Hess, Mircea Dinulescu
YEAR
2019
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ScienceDirectAUTHOR(S)
Malene H. Vested, F. Gökhan Ergin, Stefan Carstensen, Erik D. Christensen
YEAR
2018
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PDFAUTHOR(S)
F. Gökhan Ergin, Jimmy Olofsson, Bo B. Watz, Nicolai Fog Gade-Nielsen
YEAR
2018
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PDFAUTHOR(S)
Odile Carrier, F Gökhan Ergin, Huai-Zhi Li, Bo B Watz, Denis Funfschilling
YEAR
2015
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iopscienceAUTHOR(S)
F. Gökhan Ergin, Bo B. Watz, Kaspars Ērglis, Andrejs Cēbers
YEAR
2015
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ScienceDirectAUTHOR(S)
K. Ērglis, A. Tatulcenkov, G. Kitenbergs, O. Petrichenko, F. G. Ergin, B. B. Watz, A. Cebers
YEAR
2013
DOWNLOAD FILE
PDFAUTHOR(S)
Per Petersson, Rikard Wellander, Jimmy Olofsson, Henning Carlsson, Christian Carlsson, Bo Beltoft Watz, Nicolas Boetkjaer, Mattias Richter, Marcus Aldén, Laszlo Fuchs, Xue-Song Bai
YEAR
2012
DOWNLOAD FILE
PDFTITLE
Liquid jet impingement on a free liquid surface: PIV study of the turbulent bubbly two-phase flow
AUTHOR(S)
Khaled J. Hammad
YEAR
2010
DOWNLOAD FILE
PDFAUTHOR(S)
M.R. Duxenneuner, O. Pust, P. Fischer, E.J. Windhab, J.J. Cooper-White
YEAR
2009
