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The dynamics of the normal impact of a single drop onto a thin wall film of the same liquid is characterized using high-speed shadowgraphy. The initial kinetic energy of the drop is chosen to meet two requirement. While it is sufficiently high to give rise to the formation of a notable crown, it is sufficiently low to avoid any disintegration of the crown (splashing). The entire dynamics of the drop-film interaction is laminar and rotational symmetric. This makes the data set especially useful for advancement and validation of interface-resolving numerical methods for two-phase flows. To this end, high quality time-resolved experimental data on three characteristic dimensions of the crown are provided for two different impact velocities.
The dynamics of the normal impact of a single drop onto a thin wall film of the same liquid is characterized using high-speed shadowgraphy. The initial kinetic energy of the drop is chosen to meet two requirement. It is sufficiently high to give rise to the formation of a notable crown and sufficiently low to avoid any disintegration of the crown. Thus, splashing is avoided and the entire dynamics of the drop-film interaction is laminar and rotational symmetric. This makes the data set especially useful for advancement and validation of interface-resolving numerical methods for two-phase flows. To this end, time-resolved experimental data on three characteristic dimensions of the crown are provided for two different impact velocities.


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Revision as of 11:11, 12 June 2023

Axisymmetric drop impact dynamics on a wall film of the same liquid

Front Page

Introduction

Review of experimental studies

Description

Experimental Set Up

Measurement Quantities and Techniques

Data Quality and Accuracy

Measurement Data and Results

Abstract

Provide a summary of the test-case submission here.

The dynamics of the normal impact of a single drop onto a thin wall film of the same liquid is characterized using high-speed shadowgraphy. The initial kinetic energy of the drop is chosen to meet two requirement. It is sufficiently high to give rise to the formation of a notable crown and sufficiently low to avoid any disintegration of the crown. Thus, splashing is avoided and the entire dynamics of the drop-film interaction is laminar and rotational symmetric. This makes the data set especially useful for advancement and validation of interface-resolving numerical methods for two-phase flows. To this end, time-resolved experimental data on three characteristic dimensions of the crown are provided for two different impact velocities.




Contributed by: Bastian Stumpf, Milad Bagheri, Ilia V. Roisman, Cameron Tropea, Jeanette Hussong, Martin Wörner, Holger Marschall — Technical University of Darmstadt and Karlsruhe Institute of Technology

Front Page

Introduction

Review of experimental studies

Description

Experimental Set Up

Measurement Quantities and Techniques

Data Quality and Accuracy

Measurement Data and Results


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