基于水面一点法的明渠流量计算方法研究

针对当前接触式流速仪测流难度大的问题,提出了一种非接触式流量计算方法。由于渠道水流中垂线平均流速与断面平均流速近似相同,垂线平均流速与垂线水面处流速的比值为恒定值,因此可以通过该恒定值与中垂线水面流速、断面面积三组参数实现对明渠断面流量的计算。以东深供水工程某段矩形明渠为研究对象,对不同垂线上实测流速进行积分计算垂线平均流速,通过实测流速拟合抛物线函数流速分布公式计算垂线水面处流速,同时将垂线平均流速与垂线水面处流速的比值作为流量系数。结果发现,基于该流量系数的计算流量与实测流量十分接近,表明本文提出的水面一点法保证测流精度的同时能有效降低测流难度。提出的基于水面一点法的明渠流量计算方法具有较高精度,可为东深供水工程渠道流量实时监测及其他灌区快速测流提供理论依据。

郭壁改扩建供水工程水力过渡的数值模拟

以山西省晋城市郭壁改扩建供水工程三级泵站为例,探索供水工程水锤安全防护措施。通过数值模拟发现,城镇机组中2台水泵并联运行发生停泵水锤时,泵站管道最大负压和水泵最大倒转转速均不满足《泵站设计规范》要求。结合设计单位推荐的水锤防护措施,通过对比优选方式提出两阶段液控蝶阀、空气阀、真空破坏阀的联合水锤防护方案。数值模拟结果表明,在该联合防护措施下郭壁改扩建供水工程三级泵站的相关水力参数均满足《泵站设计规范》要求,系统运行安全。

基于LMDI的滇中受水区农业用水量变化影响因素分析

为探讨滇中受水区农业用水量变化的主要影响因素,加强区域粮食生产安全与水资源的可持续利用。基于kaya恒等式,采用对数平均迪氏指数法(LMDI)建立了农业用水恒等式,将农业用水量影响效应划分为粮食作物种植面积效应、高耗水作物种植比例效应、综合灌溉定额效应和农业人口效应,并将滇中受水区划分为6个受水片区,对其2008-2018年总体及逐年的农业用水量变化分别进行了因素分解与计算分析。滇中受水区及各受水片区农业用水量变化呈下降趋势,促进其变化趋势的正向效应即主要因素是高耗水作物种植比例与综合灌溉定额。可以通过合理规划种植结构来调整高耗水作物种植比例及综合灌溉定额,进而加强滇中受水区农业水资源的可持续利用。

CAVITATION CONTROL BY AERATION AND ITS COMPRESSIBLE CHARACTERISTICS

This paper presents an experimental investigation and a theoretical analysis of cavitation control by aeration and its compressible characteristics at the flow velocity V=20m/s-50m/s. Pressure waveforms with and without aeration in cavitation region were measured. The variation of compression ratio with air concentration was described, and the relation between the least air concentration to prevent cavitation erosion and flow velocity proposed based on our experimental study. The experimental results show that aeration remarkably increases the pressure in cavitation region, and the corresponding pressure wave exhibits a compression wave/shock wave. The pressure increase in cavitation region of high-velocity flow with aeration is due to the fact that the compression waves/shock wave after the flow is aerated. The compression ratio increases with air concentration rising. The relation between flow velocity and least air concentration to prevent cavitation erosion follows a semi-cubical parabola. Also, the speed of sound and Mach number of high-velocity aerated flow were analyzed.