Issue |
EPJ Web Conf.
Volume 213, 2019
EFM18 – Experimental Fluid Mechanics 2018
|
|
---|---|---|
Article Number | 02070 | |
Number of page(s) | 6 | |
Section | Contributions | |
DOI | https://doi.org/10.1051/epjconf/201921302070 | |
Published online | 28 June 2019 |
https://doi.org/10.1051/epjconf/201921302070
Selection of model liquid with refractive index matching for visualization of internal flow in a scaled atomizer model
1
Brno University of Technology, Faculty of Mechanical Engineering, Czech Republic
2
Loughborough University, United Kingdom
* Corresponding author: Marcel.Sapik@vutbr.cz
Published online: 28 June 2019
A scaled transparent modular model of pressure-swirl (PS) atomizer was prepared from cast PMMA (Poly(methyl methacrylate), Perspex™, Plexiglas™) with the aim to achieve a better understanding of internal flow and subsequent spray formation. Because of use of high-speed imaging and Laser Doppler Anemometry (LDA) the working liquid had to be selected with respect of a refractive index matching (RIM) with the atomizer material. The liquid should be colourless and chemically non-aggressive to the model material with suitable viscosity to achieve the Reynolds number of the internal flow of the original atomizer. Froude number should be high enough to neglect the influence of gravity on the flow. An extensive search for transparent liquids and materials of enlarged models was made with a focus on RIM in performed experiments. Several liquids were chosen, and their chemical effect on PMMA was tested. Despite the successful tests that proved the liquid suit the case, the model material was damaged and the tests proved to be insufficient. For this reason, the tests were modified to better involve the stress of the bolted model. It turned out that a force effect (bolt in the thread, pre-stressed bolt connection) on the material has a significant influence on the acceleration of the chemical effect. The internal flow was examined using a high-speed camera with several liquids.
© The Authors, published by EDP Sciences, 2019
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