Experimental study on the effect of hydrodynamic conditions on flocculation and settling properties of fine-grain sediment

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-08-06 DOI:10.1016/j.ijsrc.2023.08.001

Bismark Odum , Chunyang Xu , Yongping Chen , Yinpeng Yao , Yan Zhou

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Abstract

The flocculation of cohesive sediment particles is a function of the collision efficiency of sediment particles, which is mainly influenced by local flow hydrodynamics. A detailed study on local hydrodynamic characteristics in a novel stirred tank was done to measure the flow field of a turbulent flow. Instantaneous flow velocity fields were obtained and processed, and the average flow field was computed. Particle image velocimetry (PIV) results measuring the hydrodynamic characteristics (expressed as turbulent kinetic energy (TKE), local dissipation rate of TKE, velocity gradient or shear rate, turbulent shear stress, etc.) were analyzed and discussed. Particle tracking and automated image processing techniques were utilized to analyze the impact of the hydrodynamic conditions on the floc and settling properties. The differences in floc properties under the two turbulent shear states (i.e., steady-state (SS) and unsteady-state (US)) hydrodynamic conditions were examined. The results show that floc size and floc size distribution (FSD) of pure kaolin clay flocs are significantly influenced by the local dissipation rate of TKE and the turbulent intensity states. The floc size, d_{f, 84}, at local dissipation rate of TKE of 11 × 10⁻⁴, 29 × 10⁻⁴, 44 × 10⁻⁴, 83 × 10⁻⁴, and 142 × 10⁻⁴ m²/s³ is 97, 108, 107, 124, and 150 μm, respectively. It was found that by increasing the local dissipation rate of TKE, the FSD was skewed left. The US shear condition generated larger flocs (and in higher proportions) relative to the SS condition. The settling velocity and flux settling velocities of flocs formed under SS conditions are higher than those formed under US conditions. The fractal dimension of SS flocs also is higher than the fractal dimension of US flocs. These results highlight a significant impact of the states of hydrodynamics on floc properties such as floc size and FSD as well as the settling and morphological properties of flocs.

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水动力条件对细粒泥沙絮凝沉降性能影响的实验研究

粘性泥沙颗粒的絮凝是泥沙颗粒碰撞效率的函数，而碰撞效率主要受局部流体力学的影响。为了测量湍流流场，对新型搅拌槽内的局部水动力特性进行了详细的研究。得到瞬时流场并进行处理，计算平均流场。对颗粒图像测速(PIV)测量流体动力特性(湍流动能(TKE)、TKE局部耗散率、速度梯度或剪切率、湍流剪切应力等)的结果进行了分析和讨论。采用颗粒跟踪和自动图像处理技术，分析了水动力条件对絮凝体沉降特性的影响。考察了两种湍流剪切状态下(即稳态(SS)和非稳态(US))流体动力条件下絮凝体性能的差异。结果表明:纯高岭土絮凝体的粒径和粒径分布受TKE局部耗散速率和湍流强度状态的显著影响;TKE在11 × 10−4、29 × 10−4、44 × 10−4、83 × 10−4和142 × 10−4 m2/s3的局部耗散速率下，粒径df、84分别为97、108、107、124和150 μm。结果表明，通过增加TKE的局部耗散率，FSD会向左偏斜。相对于SS条件，US剪切条件产生了更大的絮凝体(比例更高)。SS条件下形成的絮凝体沉降速度和通量沉降速度均高于US条件下形成的絮凝体。SS絮凝体的分形维数也高于US絮凝体的分形维数。这些结果突出了水动力状态对絮凝体特性(如絮凝体尺寸和FSD)以及絮凝体的沉降和形态特性的显著影响。

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