Water (Nov 2019)

Consequences of the Integration of a Hyperbolic Funnel into a Showerhead for Droplets, Jet Break-up Lengths and Physical-Chemical Parameters

  • Maarten V. van de Griend,
  • Luewton L. F. Agostinho,
  • Elmar C. Fuchs,
  • Nigel Dyer,
  • Willibald Loiskandl

DOI
https://doi.org/10.3390/w11122446
Journal volume & issue
Vol. 11, no. 12
p. 2446

Abstract

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Introducing a hyperbolic vortex into a showerhead is a possibility to achieve higher spray velocities for a given discharge without reducing the nozzle diameter. Due to the introduction of air bubbles into the water by the vortex, the spray is pushed from a transition (dripping faucet) regime into a jetting regime, which results in higher droplet and jet velocities using the same nozzle diameter and throughput. The same droplet and jet diameters were realized compared to a showerhead without a vortex. Assuming that the satisfaction of a shower experience is largely dependent on the droplet size and velocity, the implementation of a vortex in the showerhead could provide the same shower experience with ~14% less water consumption compared to the normal showerhead. A full optical and physical analysis was presented, and the important chemical parameters were investigated.

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