Kuriyama Ozaki
Field Data
Kuriyama and Ozaki (1993) measured the cross-shore distribution of longshore current and wave height at the Hazaki Oceanographical Research Facility (HORF) located on the Japan Pacific coast. Longshore current measurements were made from a 427 m long pier using a float. The wave heights were calculated with ultrasonic wave gauges. The data presented here was taken on March 28, 1989.
Model Setup
A nonuniform Cartesian grid is used with a variable resolution in the cross-shore direction of 3-10 m and a constant resolution of 4 m in the longshore direction. Table 1 shows the offshore wave conditions used in the model simulation. Specific settings for CMS-Flow and CMS-Wave including time steps and steering interval are provided in Tables 2 and 3.
Table 1. Offshore wave conditions
Variable | Value |
---|---|
Incident wave angle | 27º |
Offshore significant wave height | 2.14 m |
Wave period | 8.86 sec |
Table 2. CMS-Flow setup
Setting | Value |
---|---|
Solver | Implicit |
Time step | 60 sec |
Simulation duration | 3 hr |
Ramp duration | 3 hr |
Clock time | 2.8 min |
Table 3. CMS-Wave setup
Setting | Value |
---|---|
Wave breaking | Battjes and Jansen |
Spectrum | TMA |
Directional spreading distribution | Cosine Power |
Directional spreading parameter γ | 3.3 |
Bottom friction | Off |
Steering interval | 0.25 hr |
Results
The computed longshore current and significant wave heights are compared to field measurements in Figures 1 and 2. In general, a good comparison is obtained with measurements as illustrated by the goodness of fit statistics shown in Table 4.
Table 4. Goodness of fit statistics for the Kuriyama abd Ozaki (1993) field case
Significant wave height, m | Longshore current, m/s | |
RMSE | 0.0976 | 0.1539 |
RMAE | 0.0291 | 0.0078 |
R2 | 0.995 | 0.324 |
Bias | -0.062 | 0.006 |
- For a definition of the goodness of fit statistics see Goodness of fit statistics
References
- Kuriyama, Y., and Ozaki, Y. (1993). "Longshore current distribution on a bar-trough beach, Field measurements at HORF and numerical model," Report of Port and Harbour Research Institute 32(3), Ministry of Transport, Japan, 3-37.