English

Oscillate Boiling

Fluid Dynamics 2017-02-01 v1

Abstract

We report about an intriguing boiling regime occurring for small heaters embedded on the boundary in subcooled water. The microheater is realized by focusing a continuous wave laser beam to about 10μ10\,\mum in diameter onto a 165\,nm-thick layer of gold, which is submerged in water. After an initial vaporous explosion a single bubble oscillates continuously and repeatably at several 100100\,kHz. The microbubble's oscillations are accompanied with bubble pinch-off leading to a stream of gaseous bubbles into the subcooled water. The self-driven bubble oscillation is explained with a thermally kicked oscillator caused by the non-spherical collapses and by surface pinning. Additionally, Marangoni stresses induce a recirculating streaming flow which transports cold liquid towards the microheater reducing diffusion of heat along the substrate and therefore stabilizing the phenomenon to many million cycles. We speculate that this oscillate boiling regime may allow to overcome the heat transfer thresholds observed during the nucleate boiling crisis and offers a new pathway for heat transfer under microgravity conditions.

Keywords

Cite

@article{arxiv.1604.02666,
  title  = {Oscillate Boiling},
  author = {Fenfang Li and Roberto Gonzalez-Avila and Dang Minh Nguyen and Claus-Dieter Ohl},
  journal= {arXiv preprint arXiv:1604.02666},
  year   = {2017}
}
R2 v1 2026-06-22T13:28:47.524Z