Saturday, January 23, 2016

Beetle-inspired discovery could help prevent frost on airplane parts

An inspiration from one of the most unlikeliest of sources – the Namib Desert Beetle – has led scientists to make a discovery that could pave way for development of a technology that could help prevent frost on airplane parts, condenser coils and even windshields.

Scientists led by Virginia Tech have revealed their technology and findings in a paper published in Scientific Reports wherein they have described how they used photolithography to pattern chemical arrays that attract water over top of a surface that repels water, thereby controlling or preventing the spread of frost.

For the purpose of the study, researchers developed their frost-controlling chemical pattern on a surface only about the size of a centimeter, but they believe that their method and technology can be scaled up to large surfaces with thirsty, hydrophilic patterns overtop of a hydrophobic, or water-repellant, surface.

Working at the Oak Ridge National Laboratory, created a single dry zone around a piece of ice with dew drops preferentially growing on the array of hydrophilic dots.

“When the dots are spaced far enough apart and one of the drops freezes into ice, the ice is no longer able to spread frost to the neighboring drops because they are too far away. Instead, the drops actually evaporate completely, creating a dry zone around the ice”, explains Jonathan Boreyko, an assistant professor of Biomedical Engineering and Mechanics in the Virginia Tech College of Engineering.

The journey of frost across a surface begins with a single, frozen dew drop, the researchers said.

“The twist is how ice bridges grow,” Boreyko said. “Ice harvests water from dew drops and this causes ice bridges to propagate frost across the droplets on the surface. Only a single droplet has to freeze to get this chain reaction started.”

By controlling spacing of the condensation, the researchers were able to control the speed frost grows across surfaces, or completely prevent frost.

“Fluids go from high pressure to low pressure,” Boreyko said. “Ice serves as a humidity sink because the vapor pressure of ice is lower than the vapor pressure of water. The pressure difference causes ice to grow, but designed properly with this beetle-inspired pattern, this same effect creates a dry zone rather than frost.”

The Namib Desert Beetle

The reason why scientists were inspired by this species of beetles is their ability to collect airborne water and survive using that in one of the hottest places in the world. The shell of the beetle is bumpy and the tips of the bumps attract moisture to form drops, but the sides are smooth and repel water, creating channels that lead directly to the beetle’s mouth.

“I appreciate the irony of how an insect that lives in a hot, dry desert inspired us to make a discovery about frost,” said Boreyko. “The main takeaway from the Desert Beetle is we can control where dew drops grow.”

Applications

Creating frost-free zones on larger surfaces could have a variety of applications – consider the water that forms and freezes on heat pump coils or the deicing with harsh chemicals that has to take place on wind turbines or airplane wings.

“Keeping things dry requires huge energy expenditures,” said C. Patrick Collier, a research scientist at the Nanofabrication Research Laboratory Center for Nanophase Materials Sciences at Oak Ridge National Laboratory and a co-author of the study. “That’s why we are paying more attention to ways to control water condensation and freezing. It could result in huge cost savings.”

Source:  http://www.dispatchtribunal.com

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