AbstractThe present study investigates the runup patterns formed during the interactions of a solitary wave with an array of idealized structures in the presence of following and opposing steady current flows. A series of experiments were performed at Coastal and Hydraulic Engineering Research Laboratory (CHERL) of Stony Brook University. A solitary wave of 0.1 m high was considered to interact with an array of idealized buildings on a beach berm. The wave was generated in the flume in the absence and presence of steady currents. Two different steady current velocities, one weaker and the other stronger, were generated using the flume flow recirculation system.
Zhang J., Zheng, J., Jeng, D. S., & Guo, Y. (2014). Numerical simulation of solitary-wave propagation over a steady current. Journal of Waterway, Port, Coastal, and Ocean Engineering, 141(3), 04014041.
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