virvellegemene

Virvellegemene is a term used in fluid dynamics to describe an idealized, localized region of rotating fluid that functions as a single vortex element within a larger flow. It is characterized by a finite circulation Gamma around its core and a finite core size to avoid singularities in the mathematical description. In vortex methods, the flow is represented as a set of virvellegemene whose velocity field is obtained by summing the Biot–Savart contributions of all elements. Physically, a virvellegeme does not correspond to a solid body; it is a region in the fluid with concentrated vorticity that can translate and deform under the influence of other elements and boundaries.

The main properties include circulation, core radius, and position. Interaction laws derive from fluid dynamics; the

Uses include numerical simulation of incompressible flows, wake modeling behind wings (vortex particle methods), and pedagogical

Etymology: Dutch virvel = vortex; legeme = body. See also vortex, Biot–Savart law, vortex method.