Scientific Reports (Nov 2022)

Self-charging of sprays

  • Stefan Kooij,
  • Cees van Rijn,
  • Neil Ribe,
  • Daniel Bonn

DOI
https://doi.org/10.1038/s41598-022-21943-5
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 11

Abstract

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Abstract The charging of poorly conducting liquids due to flows is a well-known phenomenon, yet the precise charging mechanism is not fully understood. This is especially relevant for sprays, where the spray plume dynamics and maximum distance travelled of a spray dramatically changes for different levels of charging: charging of the droplets makes them repel, thereby preventing drop coalescence and altering the shape of the spray plume. As the charging depends on many factors including the flow and the interactions between the liquid and the nozzle, many models and scaling laws exist in the literature. In this work we focus on perhaps the simplest flow regime, laminar jets created by ultra short channels, and quantify the charging as a function of the different parameters. We present a simple model that collapses all the data for over 4 orders of magnitude difference in streaming currents for various nozzle sizes, flow velocities and surface treatments. We further show that the charging polarity can even be reversed by applying an oppositely charged coating to the nozzle, an important step for any application.