题名

彎道堤防基腳沖刷防災物聯網-以大安溪水尾堤防為例

并列篇名

INTERNET OF THINGS FOR BEND SCOUR DISASTER WARNING SYSTEM - A CASE STUDY NEAR SHUIWEI EMBANKMENT IN DAANN RIVER

DOI

10.6652/JoCICHE.201906_31(4).0002

作者

蘇志強(Chih-Chiang Su);洪健豪(Jian-Hao Hong);楊翰宗(Han-Chung Yang);郭文達(Wen-Dar Guo);王豪偉(Hao-Wei Wang)

关键词

沖刷 ; 無線追蹤粒子 ; 動態沖刷監測 ; IoT物聯網 ; scour ; wireless tracer ; real-time scour monitoring ; IoT (internet of things)

期刊名称

中國土木水利工程學刊

卷期/出版年月

31卷4期(2019 / 06 / 01)

页次

301 - 314

内容语文

繁體中文
中文摘要

台灣間歇性河川陡坡卵礫石彎道河段,單場或連續洪水上漲過程,河道屬非平衡輸砂,常發生急遽短期一般沖刷,並加促斜向流於堤防基腳總沖刷而掏毀堤防。本文於大安溪水尾堤防,採用無線追蹤粒子及壓力式水位計建置彎道沖刷與水理動態監測防災物聯網。2017年尼莎颱風測站洪峰流量2,649 m^3/s約Q_2洪水,由沖刷出9顆漂浮裝置,動態監測彎道縱向及橫向沖刷、平均表面流速、沖刷水深與臨界沖刷剪應力,得知堤基最大沖刷深度2.24m發生於退水段,河道沖刷率介於0.73至5.3 m/h,驗證本文提出之物聯網,適用台灣湍流河道急遽沖刷防災預警之實務應用。
英文摘要

Extreme short-term general scour frequently occurs during a single or several closely-spaced floods in the gravel reaches of intermittent rivers in Taiwan. For the nonequilibrium sediment-transport conditions due to the rapidly-varied unsteady flow, embankment scour along a river bend often is enhanced caused by the channelizing processes. In this study, the real-time monitoring IoT (internet of things) system using both wireless tracer scour float-out device and pressure sensor was proposed and installed at the Shuiwei Embankment in the Daann River in the central Taiwan. Total nine float-out devices were instantly monitored to measure the longitudinal and lateral bend scouring data during Typhoon Nesat-induced flood with peak flow 2,649 m^3/s (about Q_2) in 2017. In addition, the flow data, including of water surface velocity, scoured flow depth and critical flow condition of riverbed scour, were also monitored. The real-time monitor results show that the maximum bend scour depth was 2.24 m occurring at the falling limb of the flood, and the riverbed scour rates were ranging from 0.73 to 5.3 m/h. The IoT system proposed in this study can be verified as a smart and useful tool of the flood disaster warning for extreme scour potential river reaches in the steep Taiwanese rivers.
主题分类 工程學 > 土木與建築工程
工程學 > 水利工程
工程學 > 市政與環境工程
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