Abstract
Various river projects are underway in small rivers in Korea that typically have natural flows. However, recent findings have shown that damages could be aggravated by structures such as weirs and drop structures during flood incidents. Experimental studies for securing the stability of flood control for these artificial structures have been insufficient, and designs applying the existing domestic design standards would not be suitable for the steep flow sections such as the actual small rivers, possibly aggravating the damages. The present study involved hydraulic model experiments conducted in a laboratory to investigate the surrounding flow patterns according to the river bed slope at the downstream part of the weir model. Further, the scour characteristics in the apron section during the overflow of the structure were analyzed to determine the appropriateness of the apron length. Thus, as the upstream river bed slope gradually increased, the experimental scour length deviated more from the design criteria formula. The results suggest that both the formula suggested by the National Construction Research Institute and Bligh’s formula presented in the River Design Criteria are not suitable for steep-slope rivers, such as small rivers in Korea, because both formulas were proposed based on the seepage line distance and river bed materials without considering the slope of the river bed. Thus, in designing the apron and bed pitching of weirs and drop structures, the river bed slope, scour characteristics of weir overflow, and existing design factors should be comprehensively considered to devise a design formula appropriate for environment of the small rivers in Korea.
Highlights
The results suggest that both the formula suggested by the National Construction Research Institute and Bligh’s formula presented in the River Design Criteria are not suitable for steep-slope rivers, such as small rivers in Korea, because both formulas were proposed based on the seepage line distance and river bed materials without considering the slope of the river bed
The present study examined the scour characteristics of a downstream weir according to change in upstream river bed slopes through hydraulic experiment using a small river weir model
The results showed that the values of the scour length and scour depth changed significantly as the river bed slope at the upstream part became steeper
Summary
The functions of weirs are classified according to the purpose of an in-. D. Small rivers are typically located at the upstream part of the river system, and for that reason, the river width is mostly narrow, and the slope of the river bed is steep, which is vulnerable to various damages owing to the high flow energy during flood incidents. It is crucial to investigate the causes of damage to weirs and drop structures in small rivers, and to find methods to secure their stability [2] [3]. There are few studies to improve the design standard by comparing with existing design standard formulas In this respect, the present study examined the scour characteristics of a downstream weir according to change in upstream river bed slopes through hydraulic experiment using a small river weir model. We investigated the characteristics of the downstream scour of the river owing to the change in the upstream slope through a hydraulic experiment. The ultimate goal of this study is to overcome the deficiencies of the design standards for downstream water basins of small rivers or streams
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