The Overshot Gate as a Flow-Measuring Device

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES
Jihan M. Qasim
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引用次数: 0

Abstract

The overshot gate is a commonly used adjustable overflow weir for regulating the upstream water level in open channels. The amount of gate movement is proportional to the water level change. However, to effectively manage the water flow, it is also important for operators to accurately measure the flow rate in the channel. This study examines an overshot gate installed at the end of a laboratory flume to estimate the flow rate under various free flow conditions. This study investigates different gate angles ranging from 9.6° to 90° to evaluate their impact on the flow properties and the discharge coefficient. The analysis of the results indicates that the maximum flow rate values can be achieved with gate inclinations from 15.5° to 47.2° with relatively lower head; the inclined alignment of the gate decreases the effective gate height which consequently increases the gate efficiency. The use of the overshot gate is advantageous over the normal gate when channel depth is limited and higher discharge is required at relatively lower head. In this study, at the highest gate inclinations, the water surface is significantly stable having the lowest values of the approach Froude number. In addition, the head to gate height ratio decreases with raising the gate due to the reduced vertical contraction of the channel. Finally, this paper proposes an empirical equation for estimating the discharge coefficient based on the gate inclination, which demonstrates good accuracy in the specified range.
超调闸门作为一种流量测量装置
超调闸门是一种常用的调节明渠上游水位的可调溢流堰。闸门的移动量与水位的变化成正比。然而,为了有效地管理水流,操作人员准确测量通道内的流量也很重要。本研究考察了安装在实验室水槽末端的超冲闸门,以估计在各种自由流动条件下的流量。研究了9.6°~ 90°范围内不同的闸门角度对流动特性和流量系数的影响。分析结果表明,闸门倾角在15.5°~ 47.2°范围内,水头相对较低时流量最大;栅极的倾斜排列降低了栅极的有效高度,从而提高了栅极效率。当通道深度有限并且在相对较低的水头需要较高的流量时,使用超冲闸门比普通闸门更有利。在本研究中,在最大闸门倾角处,水面明显稳定,接近弗劳德数最小。此外,由于沟道的垂直收缩减小,水头与闸门高度比随着闸门的升高而降低。最后,本文提出了一种基于浇口倾斜度估算流量系数的经验公式,在一定范围内具有较好的精度。
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
ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY
ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY MULTIDISCIPLINARY SCIENCES-
自引率
33.30%
发文量
33
审稿时长
16 weeks
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