Abstract
Optical flow analysis methods such as particle image velocimetry can only be performed in fluid systems or components with optical access. Many fluidic components, such as metallic tubes, do not typically feature optical accessibility. A new silicone-based molding technique is presented that makes it possible to replicate non-transparent fluidic components as models with optical accessibility that can be used to perform optical flow analysis. Furthermore, to avoid errors due to refraction, a test fluid is presented whose refractive index matches that of the silicone material of the replication. This new method allows flows to be analyzed in tubes or similar components with diameters in the range of only a few millimeters. An initial test was performed demonstrating the proof of concept and the velocity field of the flow inside a manifold was measured using a micro-particle image velocimetry setup. The study showed that both simple parts like tubes and complex parts such as manifolds can be replicated and investigated.
Highlights
Micro-particle image velocimetry (μ-PIV) has been broadly accepted as an optical method to measure flow fields at microscopic scales
The study showed that both simple parts like tubes and complex parts such as manifolds can be replicated and investigated
Μ-PIV is a variation of the well-known particle image velocimetry (PIV) technique that is used to measure macroscopic flows [5]
Summary
Micro-particle image velocimetry (μ-PIV) has been broadly accepted as an optical method to measure flow fields at microscopic scales. Μ-PIV is a variation of the well-known particle image velocimetry (PIV) technique that is used to measure macroscopic flows [5]. In both μ-PIV and PIV, the velocity is derived from the measured displacement of tracer particles that are suspended in the fluid. The displacement is calculated by cross-correlation of two subsequent images of the particles in the flow. The light sheet that is applied in PIV is replaced by a volume illumination of the flow in μ-PIV, and the depth of field is determined by the numerical
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