Mechanical and Civil Engineering Seminar
Structured Instabilities in Excited Granular Materials
Mechanical and Civil Engineering Seminar Series
Title: Structured Instabilities in Excited Granular Materials
Abstract: Granular materials, such as sand or catalytic particles, exhibit behaviors which blend the lines between solids, liquids and gases. External excitation by gravity, vibration or gas flow can induce motion in granular materials, and forces competing with frictional particle interactions often result in instabilities, many of which resemble those in liquids, while some of which exhibit solid-like behavior. Here, we combine gas flow and vibration experimentally to excite grains to form flow instabilities with structured waves, convection cells, gas bubbles or segregation patterns. Computational modeling demonstrates that some of these instabilities are directly analogous to those in Newtonian fluids, while others involve transitions between fluid-like and solid-like behavior in grains to form structured flow. We develop new rheological models of granular flows which incorporate fluid-solid transition to capture these structured flow instabilities and potentially improve modeling of all granular flows. These structured flows are applied to segregation, mixing and heat transport in granular flows to improve mining separations, pharmaceutical production and chemical reactor design. Finally, we discuss application of similar fluid-solid transition principles to structure flows in dense suspensions.
Bio: Chris Boyce received his Bachelor's degree in Chemical Engineering and Physics at MIT and then studied at the University of Cambridge as a Gates Cambridge Scholar, where he received the Dankwerts-Pergamon prize for the best PhD thesis in Chemical Engineering. After his PhD, he held postdoctoral research positions at Princeton University and ETH Zurich. He started as an assistant professor of Chemical Engineering at Columbia in January 2018 and is now an associate professor of Chemical Engineering. His research focuses on the physics of multiphase and granular flows. His honors and awards include being named to the Forbes 30 Under 30 List in Science, being honored with the Sabic Young Professional Award from the AIChE for outstanding contributions to particle technology and being recognized with the NSF CAREER Award and the ONR Young Investigator Program Award.
NOTE: At this time, in-person Mechanical and Civil Engineering Lectures are open to all Caltech students/staff/faculty/visitors.
Contact: Stacie Takase at (626) 395-3389 Stakase@caltech.edu
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