4-9 September 2022, Bonn, Germany
EMS Annual Meeting Abstracts
Vol. 19, EMS2022-260, 2022, updated on 28 Jun 2022
https://doi.org/10.5194/ems2022-260
EMS Annual Meeting 2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Vortex Merger in Shallow Water Model

Tae-Jin Oh1 and Wen-Yih Sun2,3
Tae-Jin Oh and Wen-Yih Sun
  • 1KIAPS, Data Application Team, Korea, Republic of (oht@kiaps.org)
  • 2Dept. of Earth, Atmospheric, and Planetary Sciences, Purdue University, West Layafette, IN, USA (wysun@purdue.edu)
  • 3Dept. of Atmospheric Sciences, National Central University, Chung-Li, Taiwan

In this presentation, an inviscid, nonlinear shallow water model is applied to study the formation of filaments and merging of potential vorticity (PV). We confirm that misalignment of vorticity with the streamlines is crucial to merger. Flow creates positive PV tendency (PVt) on the lee side of PV ridge, which increases the angle between streamlines and PV contours and the efficiency of vorticity transport along the parallel but oppositive direction in the positive quadrants of PVt . So, the vortices move closer while rotating around each other. Filamentation starts as weak vorticity shatters from the outer edge of vortex core. The filament grows and rotates around the cores, but shows little effects to positive PV advection or vortex merging in the inner core, evidenced by the steady core area integrated PV trends. Consecutive PV transfer from lower to higher interval levels are observed during merger process while elongated filamentation is dissolving into the lower level PV regime. The vortices never merge when negative PVt prevails between two vortices. Distance between the vortex cores show direct correspondence to positive PVt between them. Hence, the advance of positive PVt provides a simple mechanism of merging. The Rossby radius of deformation (LD) is confirmed to be another strong indicator for vortex pair merger where LD smaller than the initial vortex core separation length scale makes merger likely due to geostrophic adjustment. When LD to vortex core separation lengscale ratio was larger than 2, merger did not occur while mixed results showed for ratio between 1 and 2. The Rossby number (Ro) affected the overall flow interaction speed speed when LD is fixed. 

How to cite: Oh, T.-J. and Sun, W.-Y.: Vortex Merger in Shallow Water Model, EMS Annual Meeting 2022, Bonn, Germany, 5–9 Sep 2022, EMS2022-260, https://doi.org/10.5194/ems2022-260, 2022.

Displays

Display file

Supporters & sponsors