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河砂是河床的重要组成部分,维系着河势的稳定和河道堤防的安全,河砂又是一种重要资源,在经济社会发展中发挥着重要作用。实行有序的采挖,既可以疏浚河道,又可以满足经济建设的需要,采砂不当或失控,势必破坏河势稳定,危及河道行洪安全。结合实际工作,从采砂规划、管理、监督等方面提出了加强采砂管理的几点建议。 相似文献
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为研究河型转化过程机理,建立了考虑弯道二次流影响与边岸崩塌过程的平面二维河流数学模型,包括水流模型、泥沙模型和边岸崩塌模型。通过在水流动量守恒方程中增加弥散应力项以考虑弯道二次流的影响,并采用室内水槽实验结果对水流模型进行了验证;利用上荆江沙市至石首天然长河段的水沙过程和河道演变资料,对泥沙模型进行了验证;结果表明本模型数值计算量合适,有较好的适应范围。模型中提出了边岸崩塌过程的模拟技术,相对于传统平面二维水沙模型而言,可以更好地模拟天然河道的横向摆动以及洲滩消长过程。 相似文献
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三峡水库蓄水运用后,下游河道来水来沙条件均会发生改变,从而影响河道河势演变过程(包括垂向冲淤变化以及横向调整过程)。为解决长河道因岸滩崩塌引起的河势演变模拟问题,依据水位、流量及输沙量守恒和河床及河岸变形连续等条件,提出虚拟断面连接法构建了考虑岸滩崩塌的二、三维嵌套河势研究数值模型。采用1996年10月~1998年10月沙市至新厂河段实测资料对模型进行了验证,模拟结果与实测结果吻合较好,从而为定量研究水沙条件变化对荆江河道横向调整过程的影响提供了技术支撑。 相似文献
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黑河下游额济纳三角洲河道渗漏对地下水补给研究综述 总被引:1,自引:0,他引:1
干旱区河道渗漏是河道径流转化为地下水的一种主要方式. 河道渗漏系数是确定河流与地下水之间转化量的重要参数, 也是建立地下水模型的关键. 从河道渗漏运动的研究方法、 河道渗漏时空动态变化、 河道渗漏特征规律与机理以及河道渗漏模拟研究等方面入手, 综述了国内外有关河道渗漏研究方面的进展情况以及发展趋势. 同时对黑河下游额济纳三角洲地区的河道渗漏研究现状及存在的问题进行了阐述, 分析当前研究的不足. 针对黑河流域下游额济纳三角洲水系与河道特点, 提出如下建议: 从河道渗漏的时空动态变化分析入手, 开展典型渗漏观测试验、 进行河水位、 流量、 河床含水量、 地下水位的连续观测和同位素示踪试验, 测定河道渗漏与地下水运动参数; 建立河道渗漏模拟模型, 模拟和预测不同情景下河道渗漏过程. 为该地区的河道渗漏补给地下水的定量化研究提供新的思路, 为制定科学合理的水资源利用规划和维护绿洲稳定及可持续发展提供科学依据. 相似文献
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Multi-phase simulations of turbulent driven flow in a dense medium cyclone with magnetite medium have been conducted in Fluent, using the Algebraic Slip Mixture model to model the dispersed phases and the air-core, and both the Large Eddy Simulation turbulence model (LES) and Reynolds Stress Models (RSM) for turbulence closure. The predicted air-core shape and diameter were found to be close to the experimental results measured by gamma ray tomography. It is possible to use the LES turbulence model with ASM multi-phase model to predict the air/slurry interface accurately. Multi-phase simulations (air/water/medium) show appropriate medium segregation effects but over-predict the level of segregation compared to that measured by gamma ray tomography near the wall. This is believed to be because of unaccounted back-mixing of the dispersed phase due to turbulence in the basic Algebraic Slip Mixture model. The predictions of accurate axial segregation of magnetite medium are investigated using the LES turbulence model in conjunction with the multi-phase mixture model and viscosity corrections according to the feed particle loading factor. At higher feed densities the agreement between the Dunglison [Dunglison, M.E., 1999, A general model of the dense medium cylone, PhD thesis, JKMRC, University of Queensland] correlations and experimental measurements and the CFD is reasonably good, but the overflow density is lower than the model predictions. It is believed that the excessive underflow volumetric flow rates are responsible for under prediction of the overflow density. The effect of size distribution of the magnetite has been fully studied. As expected, the ultra-fine magnetite sizes (i.e. 2 and 7 microns) are distributed uniformly throughout the cyclone. As the size of magnetite increases, more segregation of magnetite occurs close to the wall. 相似文献
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《地下水科学与工程》2019,(4)
The prediction of the probability of cavitation occurrence to prevent serious damages in the spillways is the major concern for hydraulic engineers. In this research,the three-dimensional model of Shahid Madani Dam's spillway was simulated with the Flow 3 D software and by the comparison of numerical model results with the experimental data, the probability of occurrence of the cavitation phenomenon has been investigated. The flow parameters including pressure, velocity, and water depth were calculated for three different flow rates of 495 m~3/s, 705 m~3/s and 2 205 m~3/s respectively.The Renormalization Group(RNG) turbulence model was used to simulate current turbulence. Comparison of simulation results for pressure, velocity and water depth with the results of the experimental model with two statistical indices Root Mean Square Error(RMSE) and Coefficient of Determination(R~2) showed that the numerical simulation results are in good consistency with experimental model. However, simulation results indicated that at any flow rates with a return period of 1 000 years, probable maximum flood and designed flow rates, the cavitation number is not lower than the critical cavitation number. Therefore, it is predicted that the cavitation phenomenon in Shahid Madani Dam's spillway will not happen. 相似文献
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The prediction of the probability of cavitation occurrence to prevent serious damages in the spillways is the major concern for hydraulic engineers. In this research, the three-dimensional model of Shahid Madani Dam’s spillway was simulated with the Flow 3D software and by the comparison of numerical model results with the experi-mental data, the probability of occurrence of the cavitation phenomenon has been investigated. The flow parameters including pressure, velocity, and water depth were calculated for three different flow rates of 495 m3/s, 705 m3/s and 2 205 m3/s respectively. The Renormalization Group (RNG) turbulence model was used to simulate current turbulence. Comparison of simulation results for pressure, velocity and water depth with the results of the experimental model with two statistical indices Root Mean Square Error (RMSE) and Coefficient of Determination (R2) showed that the numerical simulation results are in good consistency with experimental model. However, simulation results indicated that at any flow rates with a return period of 1 000 years, probable maximum flood and designed flow rates, the cavitation number is not lower than the critical cavitation number; Therefore, it is predicted that the cavitation phenomenon in Shahid Madani Dam’s spillway will not happen. 相似文献
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《Physics and Chemistry of the Earth, Part A: Solid Earth and Geodesy》1999,24(6):539-540
The problem of interaction between a large-scale wave and the small-scale wave-induced turbulence in non-equilibrium systems of hydrodynamic type is considered. The results of numerical analysis of the model of the turbulence-wave interaction in the hydrodynamic medium (an interior gravity wave + turbulence in a stratified fluid with a shear flow) and in plasma (an ion-sound wave + the Lengmuir turbulence) are presented. It is shown that significant mutual amplification of the wave and turbulence is possible at some values of the parameters. 相似文献
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针对溃坝水流数值模拟面临的复杂地形和不规则边界等问题,基于结构网格建立了适应复杂地形和不规则边界的溃坝水流数值模拟有限体积模型(HydroM2D)。模型基于具有守恒特性的二维浅水方程,利用HLLC格式的近似Riemann解计算网格界面通量,利用MUSCL-Hancock法不断向前积分,使模型在时空上具有二阶精度;对源项进行离散处理确保模型的稳定性;模型引入有效干湿边界和不规则地形边界处理方法,准确模拟了干湿单元的动态交替和复杂边界上的水流特性。最后分别利用水槽试验、物理模型和实际算例对模型进行验证。结果表明,该模型对不同情景下的溃坝洪水模拟结果和实测资料以及现有模型模拟结果具有较高的一致性,模拟精度较高,稳定性较好,具有推广应用价值。 相似文献
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将追踪自由表面的流体体积(VOF)法应用于曲线坐标系下水流控制方程的求解中,计入流线弯曲对水流紊动特性的影响,建立了垂向二维强紊动水流的曲率修正的紊流模型,并对溢流坝反弧段的紊流特性进行了数值模拟。数值计算时,采用有限体积法离散水流的控制方程;物理变量,如:压力P、紊动参量κ、ε、γt等,采用交错方式排列(交错网格布置),用SIMPLEC算法求解离散方程。计算结果表明,得到的溢流坝反弧段的自由表面位置、速度场、压力场、剪应力分布和紊动能分布与实验结果吻合良好。 相似文献
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Experimental and numerical investigation for energy dissipation of supercritical flow in sudden contractions 
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下载免费PDF全文 Rasoul Daneshfaraz Ehsan Aminvash Reza Esmaeli Sina Sadeghfam John Abraham 《地下水科学与工程》2020,8(4):396-406
Dealing with kinetic energy is one of the most important problems in hydraulic structures, and this energy can damage downstream structures. This study aims to study energy dissipation of supercritical water flow passing through a sudden contraction. The experiments were conducted on a sudden contraction with 15 cm width. A 30 cm wide flume was installed. The relative contraction ranged from 8.9 to 9.7, where relative contraction refers to the ratio of contraction width to initial flow depth. The Froude value in the investigation varied from 2 to 7. The contraction width of numerical simulation was 5~15 cm, the relative contraction was 8.9~12.42, and the Froude value ranged from 8.9~12.42. In order to simulate turbulence, the k-ε RNG model was harnessed. The experimental and numerical results demonstrate that the energy dissipation increases with the increase of Froude value. Also, with the sudden contraction, the rate of relative depreciation of energy is increased due to the increase in backwater profile and downstream flow depth. The experimentation verifies the numerical results with a correlation coefficient of 0.99 and the root mean square error is 0.02. 相似文献
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Hydrocyclones are widely used in the mining and chemical industries. An attempt has been made in this study, to develop a CFD (computational fluid dynamics) model, which is capable of predicting the flow patterns inside the hydrocyclone, including accurate prediction of flow split as well as the size of the air-core. The flow velocities and air-core diameters are predicted by DRSM (differential Reynolds stress model) and LES (large eddy simulations) models were compared to experimental results. The predicted water splits and air-core diameter with LES and RSM turbulence models along with VOF (volume of fluid) model for the air phase, through the outlets for various inlet pressures were also analyzed. The LES turbulence model led to an improved turbulence field prediction and thereby to more accurate prediction of pressure and velocity fields. This improvement was distinctive for the axial profile of pressure, indicating that air-core development is principally a transport effect rather than a pressure effect. 相似文献