Lagrangian description and quantification of scalar mixing in fluid flows from particle tracks

Understanding, quantifying and controlling transport and mixing processes are central in the study of fluid flows. Many different Lagrangian approaches have been proposed for detecting organizing flow structures that determine material transport, including recent data-based methods that aim to identify such coherent objects directly from tracer trajectories. These methods have helped to gain a better understanding of the underlying dynamics. However, the quantification of scalar mixing has not been the focus. Here, we develop a data-driven description and quantification of transport and mixing of scalar quantities by combining a diffusion map approach for the extraction of coherent flow structures with aspects of deterministic particle methods.

Subjects

fluid dynamics

mixing

diffusion maps

particle methods

DDC Class

530: Physics

Funding(s)

SFB 1615 - SMARTe Reaktoren für die Verfahrenstechnik der Zukunft

SFB 1615 - Teilprojekt B05: Von Sensoren und Trajektorien zu Transport und Mischung

Publication version

submittedVersion

Lizenz

https://creativecommons.org/licenses/by/4.0/

Name

2509.25030v1.pdf

Size

28.45 MB

Format

Adobe PDF

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Lagrangian description and quantification of scalar mixing in fluid flows from particle tracks