Lagrangian Coherent Structure Detection using Natural Tracers in Particle-Laden Surface Flows

Tanner D Harms; Steven L Brunton; Beverley J McKeon

Lagrangian Coherent Structure Detection using Natural Tracers in Particle-Laden Surface Flows

ORAL

Abstract

Surface flows exist in a variety contexts, with modern examples including the motion of drifting buoys, ice floes, and plastic pollution in the ocean, and the advection of debris in rivers. An open problem in the study of such flows is the characterization of coherent particle behavior without direct access to underlying velocity fields or a dense distribution of tracers. This work proposes the finite-time Q criterion as an objective metric for detecting Lagrangian coherent structures and develops a trajectory-based algorithm for its sparse approximation. The tool will be demonstrated on analytical and experimental data for flows representative of real-world applications.

Nov. 20, 2023, 4:51 PM – Nov. 20, 2023, 5:04 PM

Publication: There is a paper in pre-print which is tentatively titled "Lagrangian Gradient Regression for the Detection of Coherent Structures from Sparse Trajectory Data" There is another paper planned which will discuss the finite-time Q criterion with applications to surface flows.

Presenters

Tanner D Harms

Caltech

Authors

Tanner D Harms

Caltech
Steven L Brunton

University of Washington, Department of Mechanical Engineering, University of Washington
Beverley J McKeon

Stanford University