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Main Authors: Valente, Deoclécio, Guseva, Ksenia, Feudel, Ulrike
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.18139
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author Valente, Deoclécio
Guseva, Ksenia
Feudel, Ulrike
author_facet Valente, Deoclécio
Guseva, Ksenia
Feudel, Ulrike
contents The transport and distribution of organisms like larvae, seeds or litter in the ocean as well as particles in industrial flows is often approximated by a transport of tracer particles. We present a theoretical investigation to check the accuracy of this approximation by studying the transport of inertial particles between different islands embedded in an open hydrodynamic flow aiming at the construction of a Lagrangian flow network reflecting the connectivity between the islands. To this end we formulate a two-dimensional kinematic flow field which allows the placement of an arbitrary number of islands at arbitrary locations in a flow of prescribed direction. To account for the mixing in the flow we include a von Kármán vortex street in the wake of each island. We demonstrate that the transport probabilities of inertial particles making up the links of the Lagrangian flow network depend essentially on the properties of the particles, i.e. their Stokes number, the properties of the flow and the geometry of the setup of the islands. We find a strong segregation between aerosols and bubbles. Upon comparing the mobility of inertial particles to that of tracers or neutrally buoyant particles, it becomes apparent that the tracer approximation may not always accurately predict the probability of movement. This can lead to inconsistent forecasts regarding the fate of marine organisms, seeds, litter or particles in industrial flows.
format Preprint
id arxiv_https___arxiv_org_abs_2407_18139
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Lagrangian flow networks for passive dispersal: tracers versus finite size particles
Valente, Deoclécio
Guseva, Ksenia
Feudel, Ulrike
Fluid Dynamics
The transport and distribution of organisms like larvae, seeds or litter in the ocean as well as particles in industrial flows is often approximated by a transport of tracer particles. We present a theoretical investigation to check the accuracy of this approximation by studying the transport of inertial particles between different islands embedded in an open hydrodynamic flow aiming at the construction of a Lagrangian flow network reflecting the connectivity between the islands. To this end we formulate a two-dimensional kinematic flow field which allows the placement of an arbitrary number of islands at arbitrary locations in a flow of prescribed direction. To account for the mixing in the flow we include a von Kármán vortex street in the wake of each island. We demonstrate that the transport probabilities of inertial particles making up the links of the Lagrangian flow network depend essentially on the properties of the particles, i.e. their Stokes number, the properties of the flow and the geometry of the setup of the islands. We find a strong segregation between aerosols and bubbles. Upon comparing the mobility of inertial particles to that of tracers or neutrally buoyant particles, it becomes apparent that the tracer approximation may not always accurately predict the probability of movement. This can lead to inconsistent forecasts regarding the fate of marine organisms, seeds, litter or particles in industrial flows.
title Lagrangian flow networks for passive dispersal: tracers versus finite size particles
topic Fluid Dynamics
url https://arxiv.org/abs/2407.18139