P. M. Bronowicki scite author profile

In the near-weightless environment of orbiting spacecraft capillary forces dominate interfacial flow phenomena over unearthly large length scales. In current experiments aboard the International Space Station, partially open channels are being investigated to determine critical flow rate-limiting conditions above which the free surface collapses ingesting bubbles. Without the natural passive phase separating qualities of buoyancy, such ingested bubbles can in turn wreak havoc on the fluid transport systems of spacecraft. The flow channels under investigation represent geometric families of conduits with applications to liquid propellant acquisition, thermal fluids circulation, and water processing for life support. Present and near future experiments focus on transient phenomena and conduit asymmetries allowing capillary forces to replace the role of gravity to perform passive phase separations. Terrestrial applications are noted where enhanced transport via direct liquid-gas contact is desired.

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Transient Capillary Channel Flow Stability

Grah

Canfield

Bronowicki

et al. 2014

Microgravity Sci. Technol.

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P. M. Bronowicki

The capillary channel flow experiments on the International Space Station: experiment set-up and first results

Capillary channel flow experiments aboard the International Space Station

Transient Capillary Channel Flow Stability

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