Author(s)

Dongwoo Ko, Joongu Kang^*

Korea Institute of Civil Engineering and Building Technology (KICT), Goyang-Si, Gyeonggi-Do, Korea.

Flood damage has aggravated recently owing to artificial structures in high flow rare areas such as small rivers, which can lead to secondary damage. In this regard, studies are required to examine the conventional design criteria formulas to secure the stability of structures such as weirs and drop structures. Although studies on the stability of these structures have been conducted through small-scale experiments, few empirical studies have investigated the hydraulic phenomena occurring near actual artificial structures. In this study, we fabricated real-size models of weir and drop structure at the Andong River Experiment Center and investigated the flow patterns around the structures by applying the particle image velocimetry analysis technique with a flow tracker. We also measured the scour length in the waterspout section when the structures are overflowing, and compared it with the values calculated using the formula. Consequently, as the supply flow increases, the result is different from the value calculated using the formula given in the existing design standard, and it is judged to be inappropriate for a small stream area with high flow rate. Thus, it is necessary to consider the design factors such as energy gradient and the flow amount per unit width into weir and drop structure as well as the existing design factors in designing an apron section for a weir and drop structure.

Weir, Drop Structure, Real-Scale Experiment, River Bed, Scour Characteristic

Ko, D. and Kang, J. (2018) Analysis on River Bed Changes in Weir Downstream by Real-Scale Experiment. Engineering, 10, 505-513. doi: 10.4236/eng.2018.108036.