An experimental study of inflow stability in a falling soap film

TL;DR

This study investigates inflow stability in falling soap films, comparing different flow driving methods, and finds that syringe pumps significantly improve stability and reduce velocity fluctuations compared to traditional reservoir systems.

Contribution

It provides experimental insights into inflow control methods for soap films, highlighting the effectiveness of syringe pumps in maintaining stable flow and reducing fluctuations.

Findings

Syringe pumps maintain inflow stability over days.

Constant-pressure reservoirs cause inflow rate drops.

Velocity fluctuations are reduced to 0.5% with syringe pumps.

Abstract

Inflow control is essential for most fluid mechanics experiments. Although vertically falling soap film flows have been extensively used in the last four decades to study two-dimensional flows, its inflow stability has not yet been discussed in detail. In this article, aiming to improve the inflow stability of the system, we discuss how flow driving systems dominate the inflow states and the statistics of soap film flow properties. We report experimental measurements of inflow rates using different flow driving methods, followed by soap film velocity measurements by Laser Doppler Velocimetry (LDV). The widely-used method of a constant-pressure-head reservoir exhibits a continuous drop of inflow rate. In addition, even when the flow is not disturbed, the soap film displays high magnitudes of velocity fluctuations. The mean square of velocity fluctuation was measured at 4.6% of the mean. We also test other methods without the reservoir, where the flow is directly controlled by a pump; two staggered syringe pumps are able to maintain inflow stability over days and reduce the velocity fluctuation to 0.5% of the mean. From these measurements, we conclude that the drop of inflow rate might be caused by micro/milli-scale air bubbles, which cannot be completely removed in the system. A method to control the inflow actively is necessary in a soap film setup, when a stable and long standing film flow is needed.