宽顶堰泄流水上噪声影响因素及其频谱特征研究OA
Influencing factors and spectral characteristics of water noise induced by flow over broad-crested weir
为降低宽顶堰泄流水上噪声并为工程优化设计提供依据,采用物理模型试验与数值模拟相结合的方法,研究了宽顶堰泄流水上噪声的影响因素及其频谱特征.通过物理模型试验探讨了上游流量、下游水深和堰高对水上噪声声压级及脉动压力均方根的影响,建立了水上噪声声压级与各影响因素之间的定量关系,分析了水上噪声A计权频谱特征;利用数值模拟探讨了液滴和气泡群对水上噪声的影响,揭示了水上噪声A计权频谱特征的变化原因.结果表明:水上噪声声压级和脉动压力均方根与上游流量和堰高呈正相关关系,与下游水深呈负相关关系,其中上游流量的影响最为显著,其次为下游水深和堰高;气泡破裂产生的高频噪声导致水上噪声的A计权频谱主频位于高频段;上游流量和堰高的增加导致A计权频谱中高频声压级升高,而下游水深的增加导致A计权频谱中高频声压级降低.
To reduce the water noise induced by flow over broad-crested weirs and provide a basis for engineering optimization,a combined approach integrating physical model experiments and numerical simulations was adopted to investigate the influencing factors and spectral characteristics of the water noise.Physical model experiments were conducted to examine the effects of upstream discharge,downstream water depth,and weir height on the sound pressure level of water noise and the root mean square of fluctuating pressure.Quantitative relationships between the water noise sound pressure level and these influencing factors were established,and the A-weighted spectral characteristics of the water noise were analyzed.Numerical simulations were employed to investigate the effects of droplets and bubble clusters on water noise and reveal the causes of variations in the A-weighted spectrum.The results show that both the sound pressure level of water noise and the root mean square of fluctuating pressure are positively correlated with upstream discharge and weir height,and negatively correlated with downstream water depth.Among these factors,upstream discharge exhibits the most significant influence,followed by downstream water depth and weir height.High-frequency noise generated by bubble bursting leads to the dominant frequency of the A-weighted spectrum of water noise being located in the high-frequency range.Increasing the upstream discharge and weir height raises the high-frequency sound pressure level in the A-weighted spectrum,whereas increasing the downstream water depth reduces the high-frequency sound pressure level.
王大国;余涛;水庆象;陈雨欣;范艺
西南石油大学土木工程与测绘学院西南石油大学土木工程与测绘学院西华大学流体及动力机械教育部重点实验室西南石油大学土木工程与测绘学院西南石油大学土木工程与测绘学院
水上噪声宽顶堰脉动压力均方根回归分析频谱分析气泡破裂
water noisebroad-crested weirroot mean square of fluctuating pressureregression analysisspectrum analysisbubble bursting
《水利水电科技进展》 2026 (1)
1-10,23,11
国家自然科学基金项目(42171108)
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