通过实验室测试确定宽顶堰的排水系数

Jurnal Teknik Sipil, Reza Baihaqi, Henny Herawati, S. B. Soeryamassoeka
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引用次数: 0

摘要

本研究考察了不同阈值宽度和渠道缩窄配置对水流特性的影响。研究测试了三种门槛宽度(AL1、AL2、AL3)和六种收窄模式(PM10、PM15、PM20、PT10、PT15、PT20),门槛上方的水位高度各不相同(1.0 厘米、1.5 厘米和 2.0 厘米)。结果表明,上游末端变窄会增加上下游的水位,下游末端的流速也会相应增加。不同配置的排水值和系数差异很大,由于水位和流速的变化,排水系数出现了非线性增长。缩放计算提供了原型水道的尺寸和水流特性,突出了该研究在使用玻璃纤维明渠和不同测试配置方面的优势。然而,其局限性包括实验室规模和排除了渠道粗糙度的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DETERMINATION OF DISCHARGE COEFFICIENT THROUGH LABORATORY TESTING USING BROAD-CRESTED WEIR
This study examined the impact of different threshold widths and channel narrowing configurations on water flow characteristics. The research involved testing three threshold widths (AL1, AL2, AL3) and six narrowing models (PM10, PM15, PM20, PT10, PT15, PT20) with varying water heights (1.0 cm, 1.5 cm, and 2.0 cm) above the threshold. Results indicated that narrowing at the upstream end increased water levels upstream and downstream, with a corresponding rise in flow velocity at the downstream end. Discharge values and coefficients varied significantly across different configurations, with non-linear increases observed in discharge coefficients due to changes in water levels and velocities. Scaling calculations provided prototype channel dimensions and flow characteristics, highlighting the study's strengths in using a fiberglass open channel and diverse testing configurations. However, limitations include the laboratory scale and exclusion of channel roughness effects.
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