Comparison of experimental irregular water wave elevation and kinematic data with new hybrid wave model predictions |
| |
| Authors: | JK Longridge RE Randall J Zhang |
| |
| Institution: | aAker Omega, Inc., Houston, TX 77079, U.S.A.;bOcean Engineering Program, Civil Engineering Department, Texas A&;M University, College Station, TX 77843, U.S.A. |
| |
| Abstract: | Surface water wave elevations and kinematics from four unidirectional irregular wave trains, with a Pierson and Moskowitz or JONSWAP random wave spectrum, were measured in the laboratory using resistance wave probes and a laser Doppler anemometer. The wave elevation data, velocity time series, extreme (largest) wave horizontal velocity profiles and extreme wave acceleration fields are compared with the predictions of a new wave kinematics model, named the hybrid wave model. Irregular waves are commonly viewed as the summation of many linear wave components of different frequencies, but more accurate predictions of downstream surface elevations (wave evolution) and wave kinematics are attained by considering the non-linear interactions among wave components. The hybrid wave model incorporates these non-linear wave component interactions, and its wave evolution predictions and kinematics estimates are compared with laboratory measurements in this study. Linear random wave theory, Wheeler stretching and linear extrapolation wave kinematic prediction techniques are also compared. Comparisons between measurements and hybrid wave model estimates demonstrate its improved capability to predict velocity and acceleration fields and wave evolution in two-dimensional irregular waves. |
| |
| Keywords: | |
| 本文献已被 ScienceDirect 等数据库收录! |
|
