New Omega Vortex Identification Method Based on Determined Epsilon

Preview this chapter:

New Omega Vortex Identification Method Based on Determined Epsilon, Page 1 of 1

< Previous page | Next page > /docserver/preview/fulltext/9789811437601/chapter-3-1.gif

A new Omega (Ω) method with ε determination is introduced to represent the ratio of vorticity square over the sum of vorticity squared and deformation squared, for vortex identification. the advantages of the new Ω method can be summarized as follows: (1) Ω, as a ratio of the vorticity squared over the sum of the vorticity squared and deformation squared, is a normalized and case-independent function which satisfies Ω ∈[0,1]; (2) Compared with the other vortex visualization methods, which require a wide threshold to capture the vortex structures, Ω can always be set as 0.52 to capture vortex for different cases and time steps; (3) ε is defined as a function without any adjustment on its coefficient for all cases; (4) The Ω method can capture both strong and weak vortices simultaneously. In addition, Ω is quite robust with no obvious change in vortex visualization.