An experimental decomposition of nonlinear forces on a surface-piercing column: Stokes-type expansions of the force harmonics

Lifen Chen, Jun Zang, Paul H Taylor, Liang Sun, Gerald Morgan, James Grice, Jana Orszaghova, M Tello

Research output: Contribution to journalArticle

15 Citations (Scopus)
69 Downloads (Pure)

Abstract

Wave loading on marine structures is the major external force to be considered in the design of such structures. The accurate prediction of the nonlinear high-order components of the wave loading has been an unresolved challenging problem. In this paper, the nonlinear harmonic components of hydrodynamic forces on a bottom-mounted vertical cylinder are investigated experimentally. A large number of experiments were conducted in the Danish Hydraulic Institute shallow water wave basin on the cylinder, both on a flat bed and a sloping bed, as part of a European collaborative research project. High-quality data sets for focused wave groups have been collected for a wide range of wave conditions. The high-order harmonic force components are separated by applying the 'phase-inversion' method to the measured force time histories for a crest focused wave group and the same wave group inverted. This separation method is found to work well even for locally violent nearly-breaking waves formed from bidirectional wave pairs. It is also found that the th-harmonic force scales with the th power of the envelope of both the linear undisturbed free-surface elevation and the linear force component in both time variation and amplitude. This allows estimation of the higher-order harmonic shapes and time histories from knowledge of the linear component alone. The experiments also show that the harmonic structure of the wave loading on the cylinder is virtually unaltered by the introduction of a sloping bed, depending only on the local wave properties at the cylinder. Furthermore, our new experimental results reveal that for certain wave cases the linear loading is actually less than 40 % of the total wave loading and the high-order harmonics contribute more than 60 % of the loading. The significance of this striking new result is that it reveals the importance of high-order nonlinear wave loading on offshore structures and means that such loading should be considered in their design.

Original languageEnglish
Pages (from-to)42-77
Number of pages36
JournalJournal of Fluid Mechanics
Volume848
Early online date1 Jun 2018
DOIs
Publication statusPublished - 10 Aug 2018

Keywords

  • surface gravity waves
  • wave-structure interactions
  • waves/free-surface flows

ASJC Scopus subject areas

  • Condensed Matter Physics
  • Mechanics of Materials
  • Mechanical Engineering

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