AbstractNumerical simulations of high Reynolds number flows in the unit driven cavity have been performed. The system is shown to become unsteady at Re=8125 and chaotic at Re=17,000. In between this range the system switches between periodic and quasi-periodic states with step-wise changes in period. A passive concentration field and passive tracer particles are introduced into the flow at its asymptotic state to show the effects of chaos on mixing
[[abstract]]Direct numerical simulations about the transition process from laminar to chaotic flow i...
10.1088/0960-1317/16/1/008Journal of Micromechanics and Microengineering16153-61JMMI
Originally published in Physics of Fluids vol. 6 no. 6. Copyright of American Institute of Physics....
Numerical simulations of high Reynolds number flows in the unit driven cavity have been performed. T...
The baffled cavity flow—the first representative of a class of chaotic flows produced by time-depend...
Fluid mixing in a two-dimensional square cavity with a time-periodic pulsating lid velocity is studi...
Fluid mixing in a two-dimensional square cavity with a time-periodic pulsating lid velocity is studi...
Fluid mixing in a two-dimensional square cavity with a time-periodic pulsating lid velocity is studi...
Fluid mixing in a two-dimensional square cavity with a time-periodic pulsating lid velocity is studi...
Fluid mixing in a two-dimensional square cavity with a time-periodic pulsating lid velocity is studi...
We report numerically generated flow visualisation simulations for the flow of an incompressible New...
This work presents significant development into chaotic mixing induced through periodic boundaries a...
Chaotic mixing of viscous fluids in slow flows is pervasive in the chemical and polymer industries b...
Fluid mixing is a complex process consisting of a variety of physical mechanisms. This work focuses ...
In a barotropic system described by a forced-dissipative vorticity equation, quasi-periodic flow fie...
[[abstract]]Direct numerical simulations about the transition process from laminar to chaotic flow i...
10.1088/0960-1317/16/1/008Journal of Micromechanics and Microengineering16153-61JMMI
Originally published in Physics of Fluids vol. 6 no. 6. Copyright of American Institute of Physics....
Numerical simulations of high Reynolds number flows in the unit driven cavity have been performed. T...
The baffled cavity flow—the first representative of a class of chaotic flows produced by time-depend...
Fluid mixing in a two-dimensional square cavity with a time-periodic pulsating lid velocity is studi...
Fluid mixing in a two-dimensional square cavity with a time-periodic pulsating lid velocity is studi...
Fluid mixing in a two-dimensional square cavity with a time-periodic pulsating lid velocity is studi...
Fluid mixing in a two-dimensional square cavity with a time-periodic pulsating lid velocity is studi...
Fluid mixing in a two-dimensional square cavity with a time-periodic pulsating lid velocity is studi...
We report numerically generated flow visualisation simulations for the flow of an incompressible New...
This work presents significant development into chaotic mixing induced through periodic boundaries a...
Chaotic mixing of viscous fluids in slow flows is pervasive in the chemical and polymer industries b...
Fluid mixing is a complex process consisting of a variety of physical mechanisms. This work focuses ...
In a barotropic system described by a forced-dissipative vorticity equation, quasi-periodic flow fie...
[[abstract]]Direct numerical simulations about the transition process from laminar to chaotic flow i...
10.1088/0960-1317/16/1/008Journal of Micromechanics and Microengineering16153-61JMMI
Originally published in Physics of Fluids vol. 6 no. 6. Copyright of American Institute of Physics....
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