English

Self-regulating surfaces for efficient liquid collection

Fluid Dynamics 2022-11-22 v1 Applied Physics

Abstract

To achieve efficient liquid collection, a surface must regulate incoming liquid accumulation with outgoing liquid transport. Often, this can be proposed to be achieved by functionalizing surfaces with non-wetting characteristics. Yet, there remain fundamental, practical limits to which non-wetting surfaces can effectively be employed. We instead utilize filmwise wetting to achieve liquid regulation via a Laplace pressure gradient induced by solid surface curvature. The key parameters affecting this capillary flow are then introduced, namely solid properties like scale and curvature and liquid properties like surface tension and density. The liquid regulation mechanism can then be employed in condensation and aerosol processes to generate enhanced flow, while the solid geometry needed to create this capillary flow itself is capable of affecting and enhancing liquid generation. Ultimately, the surface design framework can be customized to each unique application to optimize processes in HVAC, industrial steam generation, chemical depositions, and atmospheric water harvesting.

Keywords

Cite

@article{arxiv.2211.10566,
  title  = {Self-regulating surfaces for efficient liquid collection},
  author = {Christian Machado and Yuehan Yao and Emma Feldman and Joanna Aizenberg and Kyoo-Chul Kenneth Park},
  journal= {arXiv preprint arXiv:2211.10566},
  year   = {2022}
}

Comments

16 pages, 4 figures

R2 v1 2026-06-28T06:15:25.742Z