The lid-driven square cavity flow : From stationary to time periodic and chaotic

DSpace/Manakin Repository

The lid-driven square cavity flow : From stationary to time periodic and chaotic

Show full item record


Ficha descriptiva:


Title: The lid-driven square cavity flow : From stationary to time periodic and chaotic
Handle URI: https://hdl.handle.net/10925/739
Abstract: Ranging from Re=100 to Re=20,000, several computational experiments are conducted, Re being the Reynolds number. The primary vortex stays put, and the longterm dynamic behavior of the small vortices determines the nature of the solutions. For low Reynolds numbers, the solution is stationary; for moderate Reynolds numbers, it is time periodic. For high Reynolds numbers, the solution is neither stationary nor time periodic: the solution becomes chaotic. Of the small vortices, the merging and the splitting, the appearance and the disappearance, and, sometime, the dragging away from one corner to another and the impeding of the merging - these mark the route to chaos. For high Reynolds numbers, over weak fundamental frequencies appears a very low frequency dominating the spectra - this very low frequency being weaker than clear-cut fundamental frequencies seems an indication that the global attractor has been attained. The global attractor seems reached for Reynolds numbers up to Re=15,000. This is the lid-driven square cavity flow; the motivations for studying this flow are recalled in the Introduction.
Palabras Claves: Matemáticas - Ecuaciones
Datos de publicación: Communications in Computational Physics, Vol.2, Nº5, 900-932, 2007
Facultad: Facultad de Ingeniería
Carrera: Plan Común Ingeniería

Files in this item

Archivos Size Format View Description
square_garcia.pdf 207.8Kb PDF Thumbnail Artículo

This item appears in the following Collection(s)

Show full item record

Browse

My Account