In-line measurements and sample stream withdrawals for on-line and/or at-line measurements of slurries flowing in horizontal pipes can be complicated by nonuniform slurry profiles. More uniform profiles would improve measurements. Area contractions are a common means used to produce more uniform velocity fields for single phase flows. For example, contractions are used to condition the flow entering wind tunnel test sections and make velocity profiles more uniform at venturi throats. It was desired to determine whether area contractions could be used to make slurry concentration profiles more uniform in horizontal pipe flows. An ASME flow nozzle with a contraction diameter ratio of 0.5 was chosen as a well defined geometry to consider in a Computational Fluid Dynamic (CFD) study of the effects of a contraction on slurry concentration profiles. The pipe was 2.8 m long with a 50.8 mm diameter. The entrance of the contraction was placed at 35 pipe diameters from the inlet in fully developed flow. A length of 20 diameters followed the contraction. The slurry had a xylene liquid phase and an ADP solid phase with a density ratio of 1.7. The simulations were performed at primary phase velocities of 2 m/s and 4 m/s, corresponding to Reynolds numbers of 1.4E05 and 2.8E05. Spherical particle diameters of 38, 75, and 150 urn were used at concentrations of 0.05, 0.2, and 0.3. ANSYS FLUENT 12 software was used with the standard k-e turbulence model and standard wall function. The mixture multi-phase model was used for the two-phase flow. An unstructured tetrahedral meshing scheme was used with 1.4 million elements. The grid was adjusted until the condition 30 < y+ <60 for the mesh point nearest the wall was satisfied. A grid refinement study was performed to insure grid independence. The computational scheme first was validated by comparing pipe flow velocity and concentration profiles to results in the literature. The computations performed with the contraction showed that in all cases the concentration profiles of the solid particles displayed greater uniformity than the profiles in the pipe upstream of the contraction. The effect of the contraction was more pronounced for the larger particles. As in the case of single phase flows, the contraction caused the axial turbulence intensity to decrease. The greater uniformity of the concentration profiles at the exit plane of the nozzle, suggest that the contraction can provide better conditions for performing measurements of a particle-laden slurry.
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机译:对于在线和/或在线测量水平管道中的浆液,在线测量和样品流抽取可能会因浆液轮廓不均匀而变得复杂。更均匀的轮廓将改善测量。面积收缩是用于为单相流产生更均匀的速度场的常用方法。例如,收缩用于调节进入风洞测试段的流量,并使文丘里喉管处的速度分布更加均匀。希望确定是否可以使用面积收缩来使水平管道流中的泥浆浓度曲线更均匀。选择收缩直径比为0.5的ASME流量喷嘴作为定义明确的几何形状,以便在收缩对浆液浓度分布的影响的计算流体力学(CFD)研究中予以考虑。该管长2.8 m,直径50.8 mm。收缩的入口以充分展开的流量放置在距入口35个管道直径处。收缩后直径为20。该浆料具有二甲苯液相和ADP固相,其密度比为1.7。在2 m / s和4 m / s的初相速度下进行仿真,对应于1.4E05和2.8E05的雷诺数。球形颗粒直径分别为38、75和150 um,浓度为0.05、0.2和0.3。 ANSYS FLUENT 12软件与标准k-e湍流模型和标准壁函数一起使用。混合多相模型用于两相流。使用了140万个元素的非结构化四面体网格划分方案。调整网格,直到满足最靠近墙的网格点的条件30 展开▼
