Dataset Open Access
Data publication: Measurement of liquid foam flow through a diverging nozzle
Skrypnik, Artem;
Lappan, Tobias;
Knüpfer, Leon;
Ziauddin, Muhammad;
Arnal Tribaldos, Icíar;
Shevchenko, Natalia;
Heitkam, Sascha
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"description": "<p>The hydrodynamic theory of pneumatic foam analytically predicts the advective transport of liquid by foam rising continuously in a vertical column or pipe, relying on cross-sectional averaging of the foam velocity and liquid fraction. This experimental study accumulates a database for assessing the pneumatic foam theory in a vertically aligned diverging nozzle, i.e. at increasing cross-sectional area in nominal flow direction. The velocity distribution of the flowing foam and its liquid fraction distribution were measured by means of X-ray, optical and electrical techniques in three different nozzles distinguished by their half angle θ = 5°, 10°, 20°. The experimental setup and the measurements are described in detail in Skrypnik et al. (<a href=\"https://www.hzdr.de/publications/Publ-41024\">https://www.hzdr.de/publications/Publ-41024</a>).</p>\n\n<ul>\n\t<li>X-ray radiography (XR) has measured the distribution of the liquid fraction (ε<sub>XR</sub>) inside the nozzle as a two-dimensional projection, i.e. integrated in the X-ray beam direction.</li>\n\t<li>X-ray particle tracking (XPTV) has measured the local velocity u<sub>T</sub> inside the nozzle, along the motion path of each tracer particle described by the radial (r) and vertical position (z) in consecutive frames. The velocity u<sub>T</sub> was normalised by the superficial gas velocity j<sub>g</sub>(z) = Q<sub>g</sub> / (π * R(z)<sup>2</sup>), with Q<sub>g</sub> denoting the gas flow rate of compressed air applied for foam generation, and R(z) denoting the radius of the cross-sectional area depending on the vertical position z. To compare different nozzles, the vertical position z was normalised by the total length L = 25 mm / tan(θ) of the nozzle depending on its half angle θ = 5°, 10°, 20°.</li>\n\t<li>Optical PIV adapted to foam (FoamPIV) has measured the time-averaged velocity u<sub>W</sub> through the transparent wall of the nozzle, i.e. at the nozzle radius r = R(z) depending on the vertical position z. As described above, the velocity u<sub>W</sub> was normalised by the superficial gas velocity j<sub>g</sub>(z), and the vertical position z was normalised by the total length L of the nozzle.</li>\n\t<li>Electrode pairs (EP) have measured the cross-sectional average values of the liquid fraction (ε<sub>EP</sub>) upstream and downstream the nozzle, simultaneously to the X-ray radiographic measurement of the liquid fraction distribution (ε<sub>XR</sub>) inside the nozzle.</li>\n</ul>\n\n<p>The experimental data in this repository is structured into different folders and files as follows.</p>\n\n<ul>\n\t<li>FoamNozzle_Overview.CSV gives an overview of all measurements runs, nozzles, and techniques.</li>\n\t<li>Level 1 are folders classified by the measurement technique: 01_XR: X-ray radiography, 02_XPTV: X-ray particles tracking velocimetry, 03_FoamPIV: Optical PIV adapted to foam, 04_EP: Electrode pairs.</li>\n\t<li>Level 2 are folders classified by the different nozzles, distinguished by the nozzle half angle θ = 5°, 10°, 20°, and divided into bottom and top part in the case of θ = 5°, 10°.</li>\n\t<li>Level 3 are TIF and CSV files of measurement results.\n\t<ul>\n\t\t<li>01_XR: Each TIF image shows the time-averaged distribution of the liquid fraction inside the nozzle; the liquid fraction (0 < ε<sub>XR</sub> < 1) is indicated by the value of each pixel.</li>\n\t\t<li>02_XPTV: Each CSV file consists of three columns, namely the radial position (r, in mm), the normalised vertical position (z / L), and the normalised velocity (u<sub>T</sub> / j<sub>g</sub>(z)).</li>\n\t\t<li>03_FoamPIV: Each CSV file consists of two columns, namely the normalised vertical position (z / L), and the normalised velocity (u<sub>W</sub> / j<sub>g</sub>(z)).</li>\n\t\t<li>04_EP: Each CSV file consists of three columns, namely the cross-sectional average of the liquid fraction (0 < ε<sub>EP</sub> < 1) downstream as well as upstream the nozzle, and the time (in s).</li>\n\t</ul>\n\t</li>\n</ul>",
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"name": "Skrypnik, Artem"
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"name": "Lappan, Tobias"
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"name": "Kn\u00fcpfer, Leon"
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"orcid": "0000-0002-4580-9482",
"name": "Ziauddin, Muhammad"
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"name": "Arnal Tribaldos, Ic\u00edar"
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"orcid": "0000-0002-6177-2130",
"name": "Shevchenko, Natalia"
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"orcid": "0000-0002-2493-7629",
"name": "Heitkam, Sascha"
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"publication_date": "2025-03-07",
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"Drainage",
"Liquid fraction",
"Particle tracking velocimetry",
"Particle image velocimetry",
"Pneumatic foam theory",
"X-ray radiography"
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"notes": "The authors gratefully acknowledge the financial support provided by the German Research Foundation (DFG, under grant number HE 7529/3-1, project number 431077191), by the German Federal Ministry of Education and Research (BMBF, under grant number 03HY123E), and by the Summer Student Program at the Helmholtz-Zentrum Dresden-Rossendorf.",
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| All versions | This version | |
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- Publication date:
- March 7, 2025
- DOI:
-
- Keyword(s):
- Drainage Liquid fraction Particle tracking velocimetry Particle image velocimetry Pneumatic foam theory X-ray radiography
- Related identifiers:
- Identical to:
https://www.hzdr.de/publications/Publ-41083 - Referenced by:
https://www.hzdr.de/publications/Publ-41024 - Communities:
- License (for files):
- Creative Commons Attribution 4.0 International
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Skrypnik, Artem, Lappan, Tobias, Knüpfer, Leon, Ziauddin, Muhammad, Arnal Tribaldos, Icíar, Shevchenko, Natalia, & Heitkam, Sascha. (2025). Data publication: Measurement of liquid foam flow through a diverging nozzle [Data set]. Rodare. http://doi.org/10.14278/rodare.3624
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