Abstract
An analogy is found between the streamline function corresponding to Stokes flows in rectangular cavities and the thermodynamics of phase transitions and critical points. In a rectangular cavity flow, with no-slip boundary conditions at the walls, the corners are fixed points. The corners defined by a stationary and a moving wall, are found to be analogous to a thermodynamic first-order transition point. In contrast, the corners defined by two stationary walls correspond to thermodynamic critical points. Here, flow structures, also known as Moffatt eddies, form and act as stagnation regions where mixing is impeded. A third stationary point occurs in the middle region of the channel and it is analogous to a high temperature thermodynamic fixed point. The numerical results of the fluid flow modeling are correlated with analytical work in the proximity of the fixed points.
Highlights
The characterization of fluid flows in rectangular domains is a fundamental problem in fluid dynamics with applications to: cavity flow [1], polymer melt flow in extruders [2], and microfluidics [3,4].Those physical systems are characterized by small Reynolds numbers
We point to an analogy between the fluid mechanics problem and the thermodynamic critical phenomena and phase transitions problem
We have presented an analogy between flows in rectangular cavities and thermodynamic phase transitions
Summary
The characterization of fluid flows in rectangular domains is a fundamental problem in fluid dynamics with applications to: cavity flow [1], polymer melt flow in extruders [2], and microfluidics [3,4] Those physical systems are characterized by small Reynolds numbers. At the corner where the adjacent walls are stationary, we find self-similar structures, known as Moffatt [5,6] eddies These structures are important in the design of polymer extruders and microchannels systems, as their presence negatively impacts the ability to achieve uniform mixing [9].
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