Differential column-splitting inlet energy dissipater
An energy-dissipating, split-type technology, applied in water conservancy projects, marine engineering, coastline protection, etc., can solve the problems of damage to the stilling pool structure, easy cavitation damage to the middle pier, and downstream river erosion, etc. Erosion damage, avoid cavitation erosion, improve the effect of stress conditions
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Embodiment 1
[0039] The differential split-type imported energy dissipators in Embodiment 1 and Embodiment 2 are designed according to a large-scale hydropower station project with an installed capacity of 6400MW and a concrete gravity dam with a maximum dam height of 161m. The design flood (P=0.2%) flow rate of the hydropower station is 41200m 3 / s, check the flow of flood (P=0.02%) 49800m 3 / s, the maximum water level difference between upstream and downstream is 120m, and the maximum total discharge power is about 40000MW. The maximum single-width flow in the stilling pool is 225m 2 / s, the flow velocity of the stilling pool into the pool is about 40m / s.
[0040] Example 1
[0041] The structure of the differential split-type imported energy dissipator in this embodiment is as follows: figure 1 , image 3 , Figure 4 , Figure 7 As shown, it includes a water flow inlet section, a stilling basin 3 connected with the water flow inlet section, and an apron 6 connected with the still...
Embodiment 2
[0044] The structure of the differential split-type imported energy dissipator in this embodiment is as follows: figure 2 , image 3 , Figure 5 , Figure 10 As shown, it includes a water flow inlet section, a stilling basin 3 connected with the water flow inlet section, and an apron 6 connected with the stilling basin. The water flow inlet section is composed of high-level discharge grooves 1 and low-level discharge holes 2 arranged alternately. There are 3 high-level discharge grooves 1, 4 low-level discharge holes 2, and high-level discharge grooves 1 for non-pressure outflow, etc. Wide body type, the low discharge hole 2 is a pressure outflow, equal width body type. In the inlet section of the water flow, there is a foot 4 at the junction of the drop sill at the outlet end of the high discharge tank 1 and the outlet of the low discharge hole 2 and the bottom plate of the stilling pool. On the bottom plate of the pool, the sides perpendicular to the bottom surface in t...
Embodiment 3
[0046] The differential split imported energy dissipators in Embodiment 3 and Embodiment 4 are designed according to a large-scale hydropower station project with an installed capacity of 3000MW. The maximum dam height is 159m, and the design flood (P=0.2%) flow rate of the hydropower station is 17000m 3 / s, check the flow of flood (P=0.02%) 21000m 3 / s, the maximum water level difference between upstream and downstream is 120m, and the maximum total discharge power is about 40000MW. The maximum single-width flow in the stilling pool is 185m 2 / s, the flow velocity of the stilling pool into the pool is about 40m / s.
[0047] Example 3
[0048] The structure of the differential split-type imported energy dissipator in this embodiment is as follows: figure 2 , Figure 4 , Image 6 , Figure 12 As shown, it includes a water flow inlet section, a stilling basin 3 connected with the water flow inlet section, and an apron 6 connected with the stilling basin. The water flow i...
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