Inertial Particle Dynamics in a Hurricane
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The motion of inertial (i.e., finite-size) particles is analyzed in a three-dimensional unsteady simulation of Hurricane Isabel. As established recently, the long-term dynamics of inertial particles in a fluid is governed by a reduced-order inertial equation, obtained as a small perturbation of passive fluid advection on a globally attracting slow manifold in the phase space of particle motions. Use of the inertial equation enables the visualization of three-dimensional inertial Lagrangian coherent structures (ILCS) on the slow manifold. These ILCS govern the asymptotic behavior of finite-size particles within a hurricane. A comparison of the attracting ILCS with conventional Eulerian fields reveals the Lagrangian footprint of the hurricane eyewall and of a large rainband. By contrast, repelling ILCS within the eye region admit a more complex geometry that cannot be compared directly with Eulerian features.
Date issued
2009-08Department
Massachusetts Institute of Technology. Department of Mechanical EngineeringJournal
Journal of the Atmospheric Sciences
Publisher
American Meteorological Society
Citation
Sapsis, Themistoklis, and George Haller. “Inertial Particle Dynamics in a Hurricane.” Journal of the Atmospheric Sciences (2009): 2481-2492. © 2010 American Meteorological Society
Version: Final published version
ISSN
1520-0469
0022-4928