Predictive Model for Ice Formation on Superhydrophobic Surfaces
- 7 September 2011
- journal article
- research article
- Published by American Chemical Society (ACS) in Langmuir
- Vol. 27 (23), 14143-14150
- https://doi.org/10.1021/la200816f
Abstract
The prevention and control of ice accumulation has important applications in aviation, building construction, and energy conversion devices. One area of active research concerns the use of superhydrophobic surfaces for preventing ice formation. The present work develops a physics-based modeling framework to predict ice formation on cooled superhydrophobic surfaces resulting from the impact of supercooled water droplets. This modeling approach analyzes the multiple phenomena influencing ice formation on superhydrophobic surfaces through the development of submodels describing droplet impact dynamics, heat transfer, and heterogeneous ice nucleation. These models are then integrated together to achieve a comprehensive understanding of ice formation upon impact of liquid droplets at freezing conditions. The accuracy of this model is validated by its successful prediction of the experimental findings that demonstrate that superhydrophobic surfaces can fully prevent the freezing of impacting water droplets down to surface temperatures of as low as −20 to −25 °C. The model can be used to study the influence of surface morphology, surface chemistry, and fluid and thermal properties on dynamic ice formation and identify parameters critical to achieving icephobic surfaces. The framework of the present work is the first detailed modeling tool developed for the design and analysis of surfaces for various ice prevention/reduction strategies.Keywords
This publication has 29 references indexed in Scilit:
- Superhydrophobic Surfaces: Are They Really Ice-Repellent?Langmuir, 2010
- Design of Ice-free Nanostructured Surfaces Based on Repulsion of Impacting Water DropletsACS Nano, 2010
- Super-hydrophobic film retards frost formationSoft Matter, 2010
- Anti-Icing Superhydrophobic CoatingsLangmuir, 2009
- How Wetting Hysteresis Influences Ice Adhesion Strength on Superhydrophobic SurfacesLangmuir, 2009
- Delayed Freezing on Water Repellent MaterialsLangmuir, 2009
- Superhydrophobic Coatings with Reduced Ice AdhesionJournal of Adhesion Science and Technology, 2009
- A review of surface engineering issues critical to wind turbine performanceRenewable and Sustainable Energy Reviews, 2007
- The Dry‐Style Antifogging Properties of Mosquito Compound Eyes and Artificial Analogues Prepared by Soft LithographyAdvanced Materials, 2007
- Aircraft icingPhilosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2000