Flow through a sluice gate over a broad crested weir under free- and submerged-flow conditions

A. Seyedzadeh, M. Yasi, J. Farhoudi, A. Malcherek
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引用次数: 0

Abstract

ABSTRACT This paper describes the hydraulic characteristics of flow through a sluice gate over a broad-crested weir with a fixed upstream ramp slope of 1:2 and downstream ramp slopes of 1:2, 1:3, and 1:4. A relationship was proposed to determine the contraction coefficient of the flow passing through the gate, under free-flow conditions, in which the average value was 0.71 for all observed data. The developed relationship was used to calculate the head-loss coefficient from the studied structures under free-flow conditions, which averaged 0.31. The value of the mean absolute relative error for the proposed relationship to estimate the discharge coefficient under free-flow conditions was 1.7%. Examination of the different downstream slopes on the discharge coefficient under free-flow conditions showed that a downstream ramp slope of 1:3 is most appropriate when compared to the results for the other slopes. The value of the mean absolute relative error of the developed relationship to estimate the discharge coefficient under submerged flow conditions was 5.7%, while its corresponding value from the WinGate software was 13.1%. A survey of the effect of downstream ramp slope on the depth of submergence threshold showed that an increase in the downstream slope tends to increase the depth of the submergence threshold, whereby its value under low slopes was not significant.
在自由流和淹没流条件下,通过宽顶堰的水闸的水流
摘要本文研究了上游坡道坡度为1:2,下游坡道坡度为1:2、1:3和1:4的宽顶堰闸水流的水力特性。提出了一种关系式来确定在自由流动条件下流经闸门的流体的收缩系数,其中所有观测数据的平均值为0.71。利用所建立的关系计算了自由流动条件下所研究结构的水头损失系数,平均为0.31。该关系式估计自由流动条件下流量系数的平均绝对相对误差为1.7%。对不同下游坡面在自由流动条件下的流量系数进行了研究,结果表明,与其他坡面相比,下游坡面坡度为1:3最合适。建立的关系式估算沉水工况下流量系数的平均绝对相对误差为5.7%,而WinGate软件估算的相对误差为13.1%。通过对下游坡道坡度对淹没阈值深度影响的调查发现,随着下游坡道坡度的增大,淹没阈值有增大的趋势,而在低坡度条件下,淹没阈值的取值不显著。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ISH Journal of Hydraulic Engineering
ISH Journal of Hydraulic Engineering Engineering-Civil and Structural Engineering
CiteScore
4.30
自引率
0.00%
发文量
59
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