Add to ORKGIt is possible to drain slender containers filled with wetting liquids via capillary flows along the interior corners of the container. Usually the well established equations governing such flows demand numerical techniques. In the case of container draining unique boundary conditions resulting from local section geometry allow for a quasi-steady assumption and in turn permit analytical solutions. The quasi-steady assumption may also be employed for certain problems in which the corner flows cause passive capillary migration of the fluid within the container. The analytic solutions are useful because of the ease in which geometric effects may be observed. Container draining and capillary migration by means of corner flows are studied in a v...
Abstract In this work, we analyze liquid drains from containers in effective zero-g conditions aboar...
A recent macroscopic theory of biphasic flow in porous media [R. Hilfer, Phys. Rev. E 73, 016307 (20...
In porous media, pore geometry and wettability are determinant factors for capillary flow in drainag...
We analyze the mathematical robustness of slow massively parallel interior corner flows in low gravi...
Wetting of corner-containing geometries is ubiquitous, since the man-made surfaces and natural surfa...
Capillary driven flows in confined spaces such as grooves, microchannels and in polygonal containers...
An improved understanding of the large-length-scale capillary flows arising in a low-gravity environ...
The design of fluids management processes in the low-gravity environment of space requires an accura...
When a capillary is half-filled with liquid and turned to the horizontal, the liquid may flow out of...
When a capillary is half-filled with liquid and turned to the horizontal, the liquid may flow out of...
When a capillary is half-filled with liquid and turned to the horizontal, the liquid may flow out of...
The standard drainage equation applies only to foam columns of constant cross-sectional area. Here, ...
In the reduced acceleration environment aboard orbiting spacecraft, capillary forces are often explo...
The capillary driven flow in cylindrical interior corners satisfying the Concus-Finn condition was i...
In this work, we analyze liquid drains from containers in effective zero-g conditions aboard the Int...
Abstract In this work, we analyze liquid drains from containers in effective zero-g conditions aboar...
A recent macroscopic theory of biphasic flow in porous media [R. Hilfer, Phys. Rev. E 73, 016307 (20...
In porous media, pore geometry and wettability are determinant factors for capillary flow in drainag...
We analyze the mathematical robustness of slow massively parallel interior corner flows in low gravi...
Wetting of corner-containing geometries is ubiquitous, since the man-made surfaces and natural surfa...
Capillary driven flows in confined spaces such as grooves, microchannels and in polygonal containers...
An improved understanding of the large-length-scale capillary flows arising in a low-gravity environ...
The design of fluids management processes in the low-gravity environment of space requires an accura...
When a capillary is half-filled with liquid and turned to the horizontal, the liquid may flow out of...
When a capillary is half-filled with liquid and turned to the horizontal, the liquid may flow out of...
When a capillary is half-filled with liquid and turned to the horizontal, the liquid may flow out of...
The standard drainage equation applies only to foam columns of constant cross-sectional area. Here, ...
In the reduced acceleration environment aboard orbiting spacecraft, capillary forces are often explo...
The capillary driven flow in cylindrical interior corners satisfying the Concus-Finn condition was i...
In this work, we analyze liquid drains from containers in effective zero-g conditions aboard the Int...
Abstract In this work, we analyze liquid drains from containers in effective zero-g conditions aboar...
A recent macroscopic theory of biphasic flow in porous media [R. Hilfer, Phys. Rev. E 73, 016307 (20...
In porous media, pore geometry and wettability are determinant factors for capillary flow in drainag...