English

Reducing water entry impact forces

Fluid Dynamics 2018-07-02 v1

Abstract

The forces on an object impacting the water are extreme in the early moments of water entry and can cause structural damage to biological and man-made bodies alike. These early-time forces arise primarily from added mass, peaking when the submergence is much less than one body length. We experimentally investigate a means of reducing impact forces on rigid spheres by making a jet of water strike the quiescent water surface prior to the object impacting. The water jet accelerates the pool liquid and forms a cavity into which a sphere falls. Through on-board accelerometer measurements and high speed imaging, we quantify the force reduction compared to the case of a sphere entering a quiescent pool. Finally, we find the emergence of a critical jet volume required to maximize force reduction; the critical volume is rationalized using scaling arguments informed by near-surface particle image velocimetry (PIV) data.

Keywords

Cite

@article{arxiv.1806.11453,
  title  = {Reducing water entry impact forces},
  author = {Nathan B. Speirs and Jesse Belden and Zhao Pan and Sean Holekamp and George Badlissi and Matthew Jones and Tadd T. Truscott},
  journal= {arXiv preprint arXiv:1806.11453},
  year   = {2018}
}
R2 v1 2026-06-23T02:46:08.580Z