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Titel:

Data underlying the publication: Dispersive transport dynamics in porous media emerge from local correlations

Dokumenttyp:
Forschungsdaten
Veröffentlichungsdatum:
12.09.2022
Verantwortlich:
Alim, Karen
Autorinnen / Autoren:
Meigel, Felix J. ; Darwent, Thomas ; Bastin, Leonie ; Goehring, Luas ; Alim, Karen
Institutionszugehörigkeit:
TUM ; MPI for Dynamics and Self-Organization; MPI for the Physics of Complex Systemes; School of Science and Technology, Nottingham Trent University
Herausgeber:
TUM
Identifikator:
doi:10.14459/2022mp1684458
Enddatum der Datenerzeugung:
22.01.2022
Fachgebiet:
PHY Physik
Quellen der Daten:
Experimente und Beobachtungen / experiments and observations; Simulationen / simulations; Textdokumente / text documents
Datentyp:
Bilder / images; Texte / texts; Tabellen / tables; Programme und Anwendungen / software and applications
Methode der Datenerhebung:
For fluorescent imaging of the concentration experiments, filter cube 38 HE (excitation 470/40 nm, emission 525/50 nm (wavelength/bandwidth)) was used. We used flourescein at a concentration of 150 μM.

Fluorescence imaging for the PIV data was done at 18.18 fps with a 5 ms exposure and a 63 HE filter cube (excitation 572/25 nm, emission 629/62 nm (wave-length/bandwidth)) at 2048 × 2048 pixel resolution; typical flow speeds were 1-10 pixels/frame. Fluorescent 1 μm polystyrene microspheres(FluoSpheres, ThermoFisher Scientific) were used as tracers, diluted to a 1:3750 volume ratio and pumped through the microfluidic chips at 100 μl/h. We used PIVLab to analyse the median-subtracted, masked image sequences, using default settings and successive interrogation areas of 64/32/16/8 pixels. The reported velocity maps are frame averaged over sequences of ∼300 frames.

Simulation data was created in Matlab R2020a.
Beschreibung:
The dataset contains code and raw data used in the publication "Dispsersive transport dynamics in porous media emerge from local correlations". The provided code allows the generation of porous media patterns used in the publication and to run dispersive spread simulations in porous media. A mathematica notebook is included to allow the tracktability of the calculations performed in the publication. The data provided includes the microscopy data used to measure the width of the dispersive front...     »
Schlagworte:
porous media; fluid dynamics; microfluidics; transport; statistical physics
Technische Hinweise:
View and download (9,5 GB total, 1386 Files)
The data server also offers downloads with FTP
The data server also offers downloads with rsync (password m1684458):
rsync rsync://m1684458@dataserv.ub.tum.de/m1684458/
Sprache:
en
Rechte:
by-sa, http://creativecommons.org/licenses/by-sa/4.0
Horizon 2020:
947630
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