Lessons from the 'unearthly' behavior of enormous droplets in space

Space-based droplet dynamics lessons?
A 2-mL "puddle" of water spontaneously jumps from a hydrophobic surface upon release into a freefall. Credit: Weislogel

Droplets in space can grow freakishly large and bounce off nonwetting surfaces in truly unearthly ways. Astronauts frequently encounter huge droplets, and Scott Kelly recently demonstrated their unusual behavior aboard the International Space Station (ISS) via water balls and a hydrophobic (water repellant) ping pong paddle.

To explore the of these gigantic droplets, a group of researchers led by Mark Weislogel, a professor within the Department of Mechanical & Materials Engineering at Portland State University in Oregon, is generating and studying them right here on Earth.

How, you ask? As Weislogel and colleagues report this week in Physics of Fluids, they simply form a puddle on a flat nonwetting and drop it six stories in a "tower drop." Items in free fall experience a nearly weightless state—aka low-gravity.

"When gravity is essentially 'turned off' in this manner, the puddle tries to form a droplet and kicks itself off the surface in the process ... known as puddle jumping," Weislogel explained.

Large droplets and puddles tend to jump spontaneously from sufficiently hydrophobic surfaces during routine drop tower tests. The group's simple experimental device—without moving parts—can be used to delve into dynamic droplet phenomena for droplets on the order of 10^4 times larger than their normal terrestrial counterparts.

A 30-mL puddle jumps and exhibits bubble ingestion, satellite droplet ejection, and high-amplitude oscillations, which leads it to break apart into two large undulating drops. Credit: Weislogel

It provides and confirms "quick and qualitative design guides for 'drop shooters' as used in drop tower tests, including relationships to predict droplet ejection durations and velocities as functions of drop volume, surface texture, surface contour, wettability pattern, drop volume, and fluid properties," he added.

What lessons can be learned from drop tests?

"Droplets and bubbles are very common and problematic within low-gravity spacecraft, so we need to better understand these to design more reliable systems for water processing, fuel systems, coolants, and habitats," Weislogel said. "The surprise is that these behaviors can be well predicted, some with 4 orders of magnitude extrapolations of results from terrestrial experiments."

In terms of applications, the group's work should help to improve spacecraft fluid systems—noncontact evaporators, nonwetting utensils, condensing heat exchangers and more.

Space-based droplet dynamics lessons?
The puddle jump method is used to study low-gravity impingement of 2-mL drops against a heated mirror-polished aluminum plate where adhesions, nucleate boiling, and Leidenfrost effects are observed. Credit: Weislogel

"Our method provides a unique way of studying other drop impact phenomena for which a simple and cheap droplet shooter is necessary," he noted. "It doesn't get simpler than using a puddle on a plate as a method to make droplets fly."

Weislogel's group is now using their results to "specify further tests aboard the ISS, where will perform droplet impact, rupture, splash, and coalescence studies using simple superhydrophobic paddles and very large liquid droplets," he said. "And we'll continue our drop tower tests, which is fun work for grad students in fluid mechanics, to explore other effects of fluid properties, wetting conditions, and surface geometry."

Explore further

Combining nanotextured surfaces with the Leidenfrost effect for extreme water repellency

More information: "Puddle jumping: Spontaneous ejection of large liquid droplets from hydrophobic surfaces during drop tower tests," Physics of Fluids, DOI: 10.1063/1.4963686
Journal information: Physics of Fluids

Citation: Lessons from the 'unearthly' behavior of enormous droplets in space (2016, October 18) retrieved 15 June 2021 from https://phys.org/news/2016-10-lessons-unearthly-behavior-enormous-droplets.html
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