Abstract
Determination of the directional wave spectrum which offshore structures actually encounter is essential for multiple applications including wave-induced load and vibration evaluation, and hence becomes a fundamental task in ocean engineering. Due to the wave diffraction effect, wave field around an offshore structure is the mixture of incident wave components and diffracted wave components. Estimating directional wave spectrum in diffracted wave field significantly differs from the occasion in undisturbed waves since the amplitude and phase relationship between the incident and diffracted waves are coupled, and therefore making the conventional approach not applicable. In this study, the diffraction wave theory is introduced into the estimation of directional wave spectrum to consider the effect of diffracted waves using array pressure data from existing pressure gauges on structures. Considering the performance of the presented approach under scenarios with various gauge arrays, different directions, and spreading coefficients, multiple levels of background noise are evaluated and discussed, respectively. The presented approach is also deployed into an in-situ measurement application on a marine structure and compared with wave observation data to test its feasibility in engineering practice. In general, the presented approach can reasonably estimate the directional wave spectrum and show advantages over the conventional approach in which the diffraction effect is excluded.
Highlights
Determination of the directional wave spectrum which offshore structures encounter is essential for multiple applications including wave-induced load and vibration evaluation, and becomes a fundamental task in ocean engineering
The diffraction wave theory is introduced into the estimation of directional wave spectrum to consider the effect of diffracted waves using array pressure data from existing pressure gauges on structures
By using the correct transfer function, either analytical or numerically modeled, the presented approach can estimate the directional spectra under various wave scenarios with a plausible agreement. e gauge array significantly affects the spectrum estimation and a sensitive test is necessary
Summary
Determination of the directional wave spectrum which offshore structures encounter is essential for multiple applications including wave-induced load and vibration evaluation, and becomes a fundamental task in ocean engineering. Studies [6, 15] show that by utilizing appropriate modifications, this technique has the ability to separate reflected wave components in disturbed wave fields and gives appreciable estimated results Another advantage of using array gauge measurement is that in present time, the array gauges are usually a part of structural health monitoring (SHM) system, such as pressure gauges embedded on structures to observe the hydrodynamic load and there is no need to spend additional efforts and expense on devices and their installation. In light of this statement, this study focuses on utilizing array pressure data from existing pressure gauges embedded on structures to estimate the directional wave spectra. To make the estimation more robust, MLM (Maximum Likelihood Method)
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