Freezing and Capillarity

Axel Huerre; Christophe Josserand; Thomas Séon

doi:10.1146/annurev-fluid-121021-111652

Freezing and Capillarity

Axel Huerre
, Christophe Josserand
, Thomas Séon

Laboratoire Matière et Systèmes Complexes
Laboratoire d'Hydrodynamique de l'Ecole Polytechnique
Universidad de Buenos Aires
Institut Jean Le Rond d'Alembert

Research output: Contribution to journal › Review article › peer-review

Abstract

Ice structures such as accretion on airplanes, wires, or roadways; ice falls; ice stalactites; frozen rivers; and aufeis are formed by the freezing of capillary flows (drops, rivulets, and films). To understand these phenomena, a detailed exploration of the complex coupling between capillary flow and solidification is necessary. Among the many scientific questions that remain open in order to understand these problems are the confinement of the thermal boundary layer by the free surface, the interaction between a freezing front and a free surface, the effect of freezing on the contact line motion, etc. This review focuses mainly on water and ice, discussing the theoretical framework and recent developments in the main areas of the freezing–capillarity interaction. The text deeply explores the freezing of a moving drop and the fundamental problem of wetting water on ice. Additionally, it highlights some of the main open questions on the subject.

Original language	English
Pages (from-to)	257-284
Number of pages	28
Journal	Annual Review of Fluid Mechanics
Volume	57
DOIs	https://doi.org/10.1146/annurev-fluid-121021-111652
Publication status	Published - 22 Jan 2025
Externally published	Yes

Keywords

capillarity
drops
ice
solidification
wetting

Access to Document

10.1146/annurev-fluid-121021-111652

Cite this

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title = "Freezing and Capillarity",

abstract = "Ice structures such as accretion on airplanes, wires, or roadways; ice falls; ice stalactites; frozen rivers; and aufeis are formed by the freezing of capillary flows (drops, rivulets, and films). To understand these phenomena, a detailed exploration of the complex coupling between capillary flow and solidification is necessary. Among the many scientific questions that remain open in order to understand these problems are the confinement of the thermal boundary layer by the free surface, the interaction between a freezing front and a free surface, the effect of freezing on the contact line motion, etc. This review focuses mainly on water and ice, discussing the theoretical framework and recent developments in the main areas of the freezing–capillarity interaction. The text deeply explores the freezing of a moving drop and the fundamental problem of wetting water on ice. Additionally, it highlights some of the main open questions on the subject.",

keywords = "capillarity, drops, ice, solidification, wetting",

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doi = "10.1146/annurev-fluid-121021-111652",

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TY - JOUR

T1 - Freezing and Capillarity

AU - Huerre, Axel

AU - Josserand, Christophe

AU - Séon, Thomas

PY - 2025/1/22

Y1 - 2025/1/22

N2 - Ice structures such as accretion on airplanes, wires, or roadways; ice falls; ice stalactites; frozen rivers; and aufeis are formed by the freezing of capillary flows (drops, rivulets, and films). To understand these phenomena, a detailed exploration of the complex coupling between capillary flow and solidification is necessary. Among the many scientific questions that remain open in order to understand these problems are the confinement of the thermal boundary layer by the free surface, the interaction between a freezing front and a free surface, the effect of freezing on the contact line motion, etc. This review focuses mainly on water and ice, discussing the theoretical framework and recent developments in the main areas of the freezing–capillarity interaction. The text deeply explores the freezing of a moving drop and the fundamental problem of wetting water on ice. Additionally, it highlights some of the main open questions on the subject.

AB - Ice structures such as accretion on airplanes, wires, or roadways; ice falls; ice stalactites; frozen rivers; and aufeis are formed by the freezing of capillary flows (drops, rivulets, and films). To understand these phenomena, a detailed exploration of the complex coupling between capillary flow and solidification is necessary. Among the many scientific questions that remain open in order to understand these problems are the confinement of the thermal boundary layer by the free surface, the interaction between a freezing front and a free surface, the effect of freezing on the contact line motion, etc. This review focuses mainly on water and ice, discussing the theoretical framework and recent developments in the main areas of the freezing–capillarity interaction. The text deeply explores the freezing of a moving drop and the fundamental problem of wetting water on ice. Additionally, it highlights some of the main open questions on the subject.

KW - capillarity

KW - drops

KW - ice

KW - solidification

KW - wetting

UR - https://www.scopus.com/pages/publications/85216885691

U2 - 10.1146/annurev-fluid-121021-111652

DO - 10.1146/annurev-fluid-121021-111652

M3 - Review article

AN - SCOPUS:85216885691

SN - 0066-4189

VL - 57

SP - 257

EP - 284

JO - Annual Review of Fluid Mechanics

JF - Annual Review of Fluid Mechanics

ER -

Freezing and Capillarity

Abstract

Keywords

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