A stirring device consisting of a periodic motion of rods induces a mapping of the fluid domain to itself, which can be regarded as a homeomorphism of a punctured surface. Having the rods undergo a topologically complex motion guarantees at least a minimal amount of stretching of material lines, which is important for chaotic mixing. We use topological considerations to describe the nature of the injection of unmixed material into a central mixing region, which takes place at injection cusps. A topological index formula allow us to predict the possible types of unstable foliations that can arise for a fixed number of rods.Jean-Luc Thiffeault, Matthew D. Finn, Emmanuelle Gouillart, and Toby Hal
A new approach to understanding nonlinear dynamics and strange attractors. The behavior of a physica...
This paper demonstrates that the geometry and topology of material lines in time-periodic chaotic fl...
This work presents significant development into chaotic mixing induced through periodic boundaries a...
Topological chaos relies on the periodic motion of obstacles in a two-dimensional flow in order to f...
The stirring and mixing of a fluid with moving rods is vital in many physical applications in order ...
Topological chaos may be used to generate highly effective laminar mixing in a simple batch stirring...
Nous avons étudié le mélange de fluides visqueux dans des écoulements 2-D ouverts et fermés où des a...
Copyright © Royal Society 2006Stirring of fluid with moving rods is necessary in many practical appl...
Topological chaos may be used to generate highly effective laminar mixing in a simple batch stirring...
We have studied the mixing of viscous fluids in 2-D closed and open flows, where stirring rods creat...
Stirring a two-dimensional viscous fluid with rods is often an effective way to mix. The topological...
In recent years, topological concepts have yielded valuable insights into the long standing problem ...
Topologically chaotic fluid advection is examined in two-dimensional flows with either or both direc...
Tracer advection of non-Newtonian fluids in reoriented duct flows is investigated in terms of cohere...
In recent years, topological concepts have yielded valuable insights into the long-standing problem ...
A new approach to understanding nonlinear dynamics and strange attractors. The behavior of a physica...
This paper demonstrates that the geometry and topology of material lines in time-periodic chaotic fl...
This work presents significant development into chaotic mixing induced through periodic boundaries a...
Topological chaos relies on the periodic motion of obstacles in a two-dimensional flow in order to f...
The stirring and mixing of a fluid with moving rods is vital in many physical applications in order ...
Topological chaos may be used to generate highly effective laminar mixing in a simple batch stirring...
Nous avons étudié le mélange de fluides visqueux dans des écoulements 2-D ouverts et fermés où des a...
Copyright © Royal Society 2006Stirring of fluid with moving rods is necessary in many practical appl...
Topological chaos may be used to generate highly effective laminar mixing in a simple batch stirring...
We have studied the mixing of viscous fluids in 2-D closed and open flows, where stirring rods creat...
Stirring a two-dimensional viscous fluid with rods is often an effective way to mix. The topological...
In recent years, topological concepts have yielded valuable insights into the long standing problem ...
Topologically chaotic fluid advection is examined in two-dimensional flows with either or both direc...
Tracer advection of non-Newtonian fluids in reoriented duct flows is investigated in terms of cohere...
In recent years, topological concepts have yielded valuable insights into the long-standing problem ...
A new approach to understanding nonlinear dynamics and strange attractors. The behavior of a physica...
This paper demonstrates that the geometry and topology of material lines in time-periodic chaotic fl...
This work presents significant development into chaotic mixing induced through periodic boundaries a...