不同类型直堤围流结构试验研究

CONVERTER Pub Date : 2021-07-10 DOI:10.17762/converter.115
Tao Yu
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引用次数: 0

摘要

由于丁坝水损现象普遍存在,为了保证丁坝的调节功能,必须对丁坝进行养护,但在养护过程中丁坝的结构发生了变化。为了了解不同型式的直堤周围水流结构,通过广义水槽模型试验,分析了5种不同型式直堤周围水面剖面和流速的变化特征。结果表明:直头直堤对水面剖面的影响大于钩头直堤,圆断面直堤对水面剖面的影响小于梯形断面直堤;阻流面积流速及收缩大小由大到小依次为梯形截面与扇直头堤、梯形截面与弧直头堤、弧形截面与弧直头坝、梯形截面与扇钩头堤、梯形截面与弧钩头堤;横截面垂直速度分布由大到小依次为梯形横截面与扇形钩头坝、梯形横截面与圆形直头坝、圆弧横截面与圆形直头坝、梯形横截面与圆形钩头坝。
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Experimental Study on Flow Structure around Spur Dikes of Different Types
As water damage phenomenon of spur dike exists generally, spur dike must be maintained in order to ensure its regulation function, but its structure changed in the process of maintenance.  In order to find out flow structure around the spur dike of different pattens, through generalized flume model tests, variation characteristics of water surface profile and flow velocity around the spur dike of five different pattens were analysed. The results show that the straight head had a greater influence than hook head spur dike on the water surface profile, circular cross-section had smaller effects than trapezoidal cross-section spur dike on the water surface profile; Velocity of Choke area and contraction order from large to small is trapezoidal cross-section and fan straight head dike, trapezoidal cross-section and arc straight head dike, arc section and arc straight head dam, trapezoidal cross-section and fan hook head dike, trapezoidal cross-section arc hook head dike; Cross section vertical velocity distribution from large to small is trapezoidal cross-section and fan hook head dam, trapezoidal cross-section and circular straight head dike, arc cross-section and circular straight head dam, trapezoidal cross-section and circular hook head dike.
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