Issue 38, 2020

Oscillation and self-propulsion of Leidenfrost droplets enclosed in cylindrical cavities

Abstract

Leidenfrost droplets can be considered as soft engines capable of directly transforming heat into mechanical energy. Despite remarkable advancements in understanding the propulsion of Leidenfrost droplets on asymmetric structures, the complex dynamics of droplets in enclosed structures is not fully understood. To address this fundamental gap, we investigated the dynamics of Leidenfrost droplets restricted by metal disks. The disk alters the accumulation and release of the vapour generated by the droplet, and substantially changes its dynamic characteristics. Our experiments reveal the formation of oscillating multi-lobed structures when restricting the droplet within a disk. In comparison, patterning offset radial grooves on the surface of the disk rectifies the vapour flow and facilitates the self-propulsion of the droplet along the edge of the disk. Our work offers opportunities for developing soft and short-living actuators, which can operate at high temperatures.

Graphical abstract: Oscillation and self-propulsion of Leidenfrost droplets enclosed in cylindrical cavities

Supplementary files

Article information

Article type
Paper
Submitted
23 Jun 2020
Accepted
26 Aug 2020
First published
27 Aug 2020

Soft Matter, 2020,16, 8854-8860

Oscillation and self-propulsion of Leidenfrost droplets enclosed in cylindrical cavities

P. Yi, P. Thurgood, N. Nguyen, H. Abdelwahab, P. Petersen, C. Gilliam, K. Ghorbani, E. Pirogova, S. Tang and K. Khoshmanesh, Soft Matter, 2020, 16, 8854 DOI: 10.1039/D0SM01153C

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