【摘 要】
:
Oxygen transfer and the energy dissipation by the flow types at the stepped weir structure were performed through hydraulic experiments.Nappe flow occurs at low flow rates and for relatively small ste
【机 构】
:
Dept.of Civil and Environmental Eng., Chung-Ang University, Seoul, Korea
论文部分内容阅读
Oxygen transfer and the energy dissipation by the flow types at the stepped weir structure were performed through hydraulic experiments.Nappe flow occurs at low flow rates and for relatively small step slope.Dominant features of an air pocket, nappe impact and subsequent hydraulic jump occurs.At larger flow rates, skimming flow occurs with formation of recirculating vortices.Transition flow showed simultaneous occurrence of skimming flow at upper steps and nappe flow at lower steps.Air entrainment occurs through free-falling nappe impact and subsequent hydraulic jump in the nappe flow, and occurs from the step edges in the skimming flow.Energy dissipation occurs through the jet impact and the subsequent hydraulic jump in the nappe flow and occurs through maintaining the recirculation vortices between step edges in the skimming flow regimes.The average values of the oxygen transfer are 0.45 in the nappe flow and 0.28 in the skimming flow, and the efficiencies of energy dissipation in the nappe flow and in the skimming flow are about 70-95(#) and 60-90(#), respectively.From these results, the stepped weir structure is found to be efficient for oxygen transfer and for energy dissipation.
其他文献
疏浚底泥中的重金属污染物在填埋场内的迁移-弥散问题得到了广泛的关注,但是污染物由污染场地向地下环境中迁移-弥散的过程非常复杂,有很多尚不明确的问题.本文以南方某疏浚底泥单独填埋场为研究对象,建立一维垂向饱和-非饱和污染物迁移计算模型,对几种典型重金属污染物在降雨淋滤条件下迁移-弥散过程进行模拟.计算结果表明,在降雨作用下,疏浚底泥填埋场表层的重金属污染物浓度迅速下降,底泥底部的重金属浓度也逐渐减小
疏浚淤泥的处理与处置问题得到了广泛的关注,回收利用疏浚淤泥作为垂直防渗帷幕混合回填材料的可行性需要明确.本文以太湖梅梁湾白旄堆场的疏浚淤泥和亚东膨润土为对象,研究膨润土掺量、周围压力和孔径分布对疏浚淤泥-膨润土混合土渗透性的影响.试验结果表明,从中短期渗透性角度来看,回收利用疏浚淤泥作为垂直防渗帷幕的混合回填材料是可行的.疏浚淤泥-膨润土混合土渗透系数随着膨润土掺量的增加而下降,但降低程度并不明显
本文围绕防控三峡支流水华、保障库区水质安全及改善下游生态环境三大目标,通过总结前人和"十一五"水专项研究成果,依据水利、资源、生态学原理,剖析溪洛渡、向家坝、三峡工程水沙关系、环境关系和功能关系,研究"长江-水库(群)-长江-湖泊"的生态环境演化关系,突破传统调度理论,提出了联合水库、动水环境、调和效益、协作调度的三峡水库群"联、动、和、协"的生态环境调度策略,同步构建嵌入保障长江中游江湖生态环境
环保疏浚作为一种新型的清理河湖底泥的工艺,具有清淤质量高、输送距离远、全天候作业等特点,作为典型平原区的海宁,首次引进环保疏浚工艺,本文结合洛塘河的疏浚、淤泥堆放、干化等实际,探索环保疏浚在海宁的发展与应用.
Increasing human population combined with increased economic growth and the concomitant consequences of increased urbanisation and associated environmental burdens coupled with climate change and wate
Flood risk assessment and risk level zonation is very important for preventing the watershed flood disaster and making disaster mitigation plans.We establish a flood disaster risk assessment model bas
Typhoons are among the most devastating of natural disasters.Accurate inundation forecasts are necessary for flood warning and mitigation, and the development of real-time flood forecasting models has
Along the coastal area, storm surge, an abnormal rise of water generated over and above the predicted astronomical tides, severely threaten life and property, which is associated with low pressure wea
The navigation on the Shahe River has sustained for a long time.But currently it is unnavigable from Luohe to Pingdingshan, which restricts the economic development in the hinterland, for the reason o
China has recognized sponge city as a means to solve water shortage, combat inundation and water quality problems.The concept of sponge city is to implement low impact development (LID) at a large sca