Improvement of shallow-water basin wave generation using ‘anti-waves’

AuthorsEssen, S. van, Pauw, W., Schmittner, C.
Conference/Journal33rd International Conference on Ocean, Offshore and Arctic Engineering (OMAE), San Francisco, California, USA
DateJun 13, 2014
The demand for hydrodynamic research facilities to correctly model shallow-water effects associated with lowfrequency (LF) waves increases. Modelling such shallow-water waves in a basin introduces extra challenges, on top of the issues such projects are associated with at full scale. Various unwanted LF wave contributions are introduced by the geometry of the basin and the wave generators. Measurements show significantly more LF wave energy than expected based on second-order bound wave theory, where certain basin modes can generally be identified. This paper describes a method to minimize the unwanted part of this LF wave energy, by creating an ‘anti-wave’ and choosing an appropriate location in the basin. A wave-splitting tool was used to separate the original wave field into bound and LF free wave components in incident and reflected directions. The resulting LF free wave travelling from the wave generator was used to define a deterministic ‘anti-wave’, which was designed to cancel this LF free wave. Some first tests of this theory in MARIN’s Offshore Basin showed that it is possible to reduce the amount of unwanted LF spurious wave energy in shallow water by generating an antiwave at the wave generator. This is promising for further development, although phasing of the anti-wave is difficult for basin oscillation modes. A procedure to follow for future shallow-water basin projects was identified.
Tags
stability, seakeeping and ocean engineeringwaves, impacts and hydrostructuralmeasurements and controldata sciencerenewablesoffshore operationsoil and gasinfrastructuremarine systemslife at seaseakeepingmodel testingloads and responsesmooring and offloadingwavesoffshore engineering