SUSpension index of the flow in a closed conduit is analysed analysed considering the mechanism of the turbulent sediment sUSpension.
根据紊动悬浮泥沙的机理,本文分析了泥沙在管路中输送时有效悬浮指标的表达式。
It has proved that the turbulence of the flow resulting in the sediment suspension and the fluctuation of the concentration of sediment.
结果表明,无论从微观结构,还是外在特征,挟沙水流速度脉动与浓度脉动之间存在着内在联系。
Based on the equations of two-phase flow, the presence of fine sediment suspension is shown to attenuate the turbulent intensity of the water.
从两相流运动方程出发,研究了细小悬移质颗粒的存在对水流脉动强度的影响。
From the viewpoint of dynamic analysis of interactions between currents and muddy beds, the mechanism of cohesive sediment suspension is investigated.
本文从水流与淤泥质床面的相互作用的动态角度来探讨粘性泥沙悬扬机理。
Integrating with dynamic function, the hydrodynamic inducement of sediment suspension and a conceptual model for nutrient release from sediment in large shallow lake were suggested.
结合水动力作用,提出了大型浅水湖泊水动力作用导致底泥悬浮,从而使得底泥中的可溶性营养物质释放这一内源释放的概念性模式。
By using the mixture of anionic surfactant and cationic surfactant, we can define the stability of SiC suspension with sediment experiment, the limited separation diameter and TEM.
选用复配使用的阴阳离子表面活性剂,通过沉降实验、纳米颗粒的极限分离直径和TEM来测试纳米颗粒在瓦特镀液中分散性能好坏。
In this thesis, we study the chemical element content change in suspension, solution and sediment state when in low, high and normal flow season.
研究化学元素在枯、丰、平三个水季悬浮态、可溶态、沉积态的含量变化。
Formation and transport of high concentrated suspension of cohesive sediment is very important to the morphologic change of estuaries and coasts and sedimentation of harbor basins and channels.
粘性泥沙高浓度悬浮层形成及其输送对于河口海岸地形变化、港口航道淤积起着十分重要的作用。
Under steady salinity, flocculating settling velocity depends on factors such as diameter and type of sediment concentration of suspension, settling distance and temperature of water.
在稳定含盐静水中的絮凝沉速取决于泥沙粒径和类型、含沙浓度、沉距和水温等因素。
Even though these rivers carry a significant sediment load in suspension, the density of the sediment-laden water is rarely at or above the density of seawater.
尽管这些河流带着大量悬浮的颗粒,这带有沉淀物的水的密度仍仅仅达到或者低于海水的密度。
The suspension from the estuary of Qagu River in Qingdao as an adsorbent, No. 0 derv and No. 32 engine oil as an adsorbate, the study on the property of oil adsorbed by the sediment in water was made.
采用青岛大沽河河口的泥沙为吸附剂,0号柴油和32号柴油为吸附质,以此来研究石油在水中悬浮物上的吸附特性。
Under certain hydrodynamic conditions, different species of aquatic plants will have different impacts on the flow structure and sediment re-suspension due to the differences in plant morphology.
在一定的水动力条件下,不同水生植物对水流结构改变的程度及对底泥再悬浮的影响由于其形态结构的差异有所不同。
Under certain hydrodynamic conditions, different species of aquatic plants will have different impacts on the flow structure and sediment re-suspension due to the differences in plant morphology.
在一定的水动力条件下,不同水生植物对水流结构改变的程度及对底泥再悬浮的影响由于其形态结构的差异有所不同。
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