Replication Data for: Dispersion of inertial finite-size particles in turbulent open-channel flow

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Benonisen, Petter Rikheim; R. Jason Hearst; Yi Hui Tee, 2025, "Replication Data for: Dispersion of inertial finite-size particles in turbulent open-channel flow", https://doi.org/10.18710/2RFUMU, DataverseNO, V1

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Description	This dataset contains the data files required to reproduce the results of the journal article Benonisen, et al. (2025). Dispersion of inertial finite-size particles in turbulent open-channel flow. J. Fluid Mech., 1023, A32. https://doi.org/10.1017/jfm.2025.10851. It contains particle settling location data, particle trajectories in quiescent flow, and mean velocity profiles obtained from particle image velocimetry (PIV). Abstract of the journal article Benonisen, et al. (2025). Plastic pollution in our aquatic systems is a pressing issue, and the spread of these particles is determined by several factors. In this study, the advection and dispersion of negatively buoyant finite-size particles of four different shapes (spheres, circular cylinders, square cylinders, and flat cuboids) and two sizes (6 and 9 mm) are investigated in turbulent open-channel flow. The volume, mass, and characteristic length are fixed for each size. Four different turbulent conditions are considered, varying the freestream velocity (0.25 and 0.38 m/s) and turbulence intensity (4 and 9 %). The particles are released individually from below the water surface. A catch grid is placed along the bottom floor to mark the particle landing location. The average particle advection distance remains unchanged between the turbulence levels, suggesting that the mean settling velocity is independent of turbulence in this regime. Based on the root mean square of the landing locations, the particle dispersion varies with particle shape, size, settling velocity, and turbulent flow conditions. For the square cylinders investigated in this work, the effect of particle shape on dispersion is difficult to predict at low flow velocities and turbulence intensities. As the turbulent fluctuations increase, the dispersion becomes more predictable for all shapes. An empirical expression is proposed to relate turbulent velocity fluctuations, integral length scales, particle settling velocity, and particle size to streamwise dispersion. It is found that finite-size inertial particles do not disperse per simple turbulent diffusion, meaning that particle geometry has to be incorporated into dispersion models.
Subject	Engineering; Physics
Keyword	Particle/fluid flow, Turbulent flows, Anisotropic particle-laden flow, Intertial particles, Particle dispersion
Related Publication	Benonisen, P. R., Hearst, R. J., & Tee, Y. H. (2025). Dispersion of inertial finite-size particles in turbulent open-channel flow. J. Fluid Mech., 1023, A32. https://doi.org/10.1017/jfm.2025.10851doi: 10.1017/jfm.2025.10851
License/Data Use Agreement	CC0 1.0

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	00_ReadMe.md Markdown Text - 7.2 KB Published Dec 8, 2025 2 Downloads MD5: 6761d3263f0744cbaf0408bfd1f3805b	Preview "00_ReadMe.md" Access File File Access Public Download Options Markdown Text Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	particle-settling-locations.zip ZIP Archive - 41.8 KB Published Dec 8, 2025 2 Downloads MD5: f27c3ab5427cfa58d32ebf2e5a561761	Preview "particle-settling-locations.zip" Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	quiescent-settling-particle-tracks.zip ZIP Archive - 1.6 MB Published Dec 8, 2025 1 Download MD5: f3cf5013777828dcd5a12f69385416d0	Preview "quiescent-settling-particle-tracks.zip" Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX
	velocity-profiles.zip ZIP Archive - 144.2 KB Published Dec 8, 2025 1 Download MD5: 90c18eef883b1234d13fecbeff2a94d1	Preview "velocity-profiles.zip" Access File File Access Public Download Options ZIP Archive Download Metadata Data File Citation Download EndNote XML Download RIS Download BibTeX

Citation Metadata

Persistent Identifier	doi:10.18710/2RFUMU
Publication Date	2025-12-08
Title	Replication Data for: Dispersion of inertial finite-size particles in turbulent open-channel flow
Author	NTNU – Norwegian University of Science and Technology0009-0008-1572-7698 NTNU – Norwegian University of Science and Technologyhttps://orcid.org/0000-0003-2002-8644 NTNU – Norwegian University of Science and Technologyhttps://orcid.org/0000-0002-0804-5719
Point of Contact	Use email button above to contact. Hearst, R. Jason (NTNU – Norwegian University of Science and Technology)
Description	This dataset contains the data files required to reproduce the results of the journal article Benonisen, et al. (2025). Dispersion of inertial finite-size particles in turbulent open-channel flow. J. Fluid Mech., 1023, A32. https://doi.org/10.1017/jfm.2025.10851. It contains particle settling location data, particle trajectories in quiescent flow, and mean velocity profiles obtained from particle image velocimetry (PIV). Abstract of the journal article Benonisen, et al. (2025). Plastic pollution in our aquatic systems is a pressing issue, and the spread of these particles is determined by several factors. In this study, the advection and dispersion of negatively buoyant finite-size particles of four different shapes (spheres, circular cylinders, square cylinders, and flat cuboids) and two sizes (6 and 9 mm) are investigated in turbulent open-channel flow. The volume, mass, and characteristic length are fixed for each size. Four different turbulent conditions are considered, varying the freestream velocity (0.25 and 0.38 m/s) and turbulence intensity (4 and 9 %). The particles are released individually from below the water surface. A catch grid is placed along the bottom floor to mark the particle landing location. The average particle advection distance remains unchanged between the turbulence levels, suggesting that the mean settling velocity is independent of turbulence in this regime. Based on the root mean square of the landing locations, the particle dispersion varies with particle shape, size, settling velocity, and turbulent flow conditions. For the square cylinders investigated in this work, the effect of particle shape on dispersion is difficult to predict at low flow velocities and turbulence intensities. As the turbulent fluctuations increase, the dispersion becomes more predictable for all shapes. An empirical expression is proposed to relate turbulent velocity fluctuations, integral length scales, particle settling velocity, and particle size to streamwise dispersion. It is found that finite-size inertial particles do not disperse per simple turbulent diffusion, meaning that particle geometry has to be incorporated into dispersion models.
Subject	Engineering; Physics
Keyword	Particle/fluid flow Turbulent flows Anisotropic particle-laden flow Intertial particles Particle dispersion
Related Publication	Benonisen, P. R., Hearst, R. J., & Tee, Y. H. (2025). Dispersion of inertial finite-size particles in turbulent open-channel flow. J. Fluid Mech., 1023, A32. https://doi.org/10.1017/jfm.2025.10851 doi 10.1017/jfm.2025.10851 https://doi.org/10.1017/jfm.2025.10851
Language	English
Producer	NTNU – Norwegian University of Science and Technology (NTNU) https://www.ntnu.edu/
Funding Information	European Union: MSCA-PF 101107440, InMyWaves European Union: ERC StG 101041000, GLITR
Distributor	NTNU – Norwegian University of Science and Technology (NTNU) https://dataverse.no/dataverse/ntnu
Depositor	Benonisen, Petter Rikheim
Deposit Date	2025-10-27

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