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The Establishment and Verification
of the Numerical Model
2.1. Experimental Verification. The flume
equipment of the hydraulics laboratory of
the Xi'an University of Technology was used
for the test model.
The water in the reservoir flows through the
pump and the underground pipe into the
spillway. After the aeration section, the water
flows through the U-shaped return tank and
then enters the underground reservoir. The start
of the whole test section is the WES weir, and
the end is the ogee section. The dam height is
186.63 cm, and the step height is 5cm. The slope
of the spillway is 30°, and the width is 25 cm.
The WES weir is composed of three composite
arcs, the radii of which are 10 cm, 4 cm, and 0.8
cm, respectively, the radius of the ogee section is
70 cm, and the shooting angle at the bottom of
the arc is 20 degrees.
2.2. Numerical Model. In this paper, Ansys Fluent has been
used to simulate and calculate the hydraulic characteristics of the
energy dissipation of a stepped spillway. Before nu merical
simulation, the meshing and grid independence study and the
turbulence model study are important steps to ensure the
calculation results. In order to select a suitable turbulence model,
taking working condition 3 (weir head
h = 0.3m and unit width discharge q = 0.3502 m2/s) as an
example, three turbulence models, standard k-e, realizable k e,
and RNG k-e, were selected to calculate the pressure. The results
were compared with the experimental data. The calculation
results are shown in Table 1. The horizontal length of stage L=260
cm. It can be seen that the RNG k-e turbulence model is the
closest to the experimental dates, and the relative errors are less
than 5%. Therefore, the RNG k-e turbulence model is selected for
calculation.

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The Establishment and Verification of the Numerical Model.pptx

  • 1. The Establishment and Verification of the Numerical Model 2.1. Experimental Verification. The flume equipment of the hydraulics laboratory of the Xi'an University of Technology was used for the test model.
  • 2. The water in the reservoir flows through the pump and the underground pipe into the spillway. After the aeration section, the water flows through the U-shaped return tank and then enters the underground reservoir. The start of the whole test section is the WES weir, and the end is the ogee section. The dam height is 186.63 cm, and the step height is 5cm. The slope of the spillway is 30°, and the width is 25 cm. The WES weir is composed of three composite arcs, the radii of which are 10 cm, 4 cm, and 0.8 cm, respectively, the radius of the ogee section is 70 cm, and the shooting angle at the bottom of the arc is 20 degrees.
  • 3. 2.2. Numerical Model. In this paper, Ansys Fluent has been used to simulate and calculate the hydraulic characteristics of the energy dissipation of a stepped spillway. Before nu merical simulation, the meshing and grid independence study and the turbulence model study are important steps to ensure the calculation results. In order to select a suitable turbulence model, taking working condition 3 (weir head h = 0.3m and unit width discharge q = 0.3502 m2/s) as an example, three turbulence models, standard k-e, realizable k e, and RNG k-e, were selected to calculate the pressure. The results were compared with the experimental data. The calculation results are shown in Table 1. The horizontal length of stage L=260 cm. It can be seen that the RNG k-e turbulence model is the closest to the experimental dates, and the relative errors are less than 5%. Therefore, the RNG k-e turbulence model is selected for calculation.