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Water conservancy and hydropower project energy dissipation method

A technology for water conservancy, hydropower and energy dissipation, applied in water conservancy projects, marine engineering, coastline protection, etc. The energy effect is improved, it is easy to mix with air and friction, and the energy dissipation effect is good.

Inactive Publication Date: 2019-07-12
XIHUA UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are still huge defects in this structure. Because the water flow is relatively concentrated during the falling process, it often causes serious local erosion to the downstream landing point.
At the same time, when the discharge flow rate is large and the flow rate is fast, the high-speed water flow hits the landing point, causing the riverbed to sink severely at the landing point, which greatly changes the original appearance of the riverbed and increases the instability of the flow regime.
At the same time, when the water level difference between the upstream and downstream is large, the kinetic energy carried by the water flow itself is relatively large, and the simple energy dissipation method of deflecting flow often fails to achieve the expected energy dissipation effect

Method used

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  • Water conservancy and hydropower project energy dissipation method
  • Water conservancy and hydropower project energy dissipation method
  • Water conservancy and hydropower project energy dissipation method

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Embodiment Construction

[0032] combine Figure 1-7 The energy dissipation method of a water conservancy and hydropower project shown includes a discharge outlet 2 arranged on the upper part of the dam 1, a first discharge channel 3 arranged on the surface of the downstream side of the dam 1, and a first discharge channel 3 arranged on the main body of the dam 1 Inside the second drain channel 4. The discharge outlet 2 can be either an overflow sill arranged on the top of the dam 1, or a flood discharge channel provided with a gate valve, or other structures with the same effect. Such as figure 1 As shown, the left side of the dam 1 is the upstream side, and the right side is the downstream side. The first discharge channel 3 is located on the right side of the dam 1, and the second discharge channel 4 is located inside the dam 1. In the dam 1 The construction phase is integrally constructed with the main body of the dam 1 .

[0033] Both the first discharge channel 3 and the second discharge chann...

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Abstract

The invention relates to the technical field of water conservancy and hydropower projects, and aims to provide a water conservancy and hydropower project energy dissipation method with good energy dissipation effect. According to the technical scheme, the water conservancy and hydropower project energy dissipation method includes the core steps that a discharge port is formed in the upper part ofa dam, and a first discharge channel and a second discharge channel are arranged to communicate with the discharge port; and during discharging, the flow of water is divided into two parts from the discharge port, one of the parts is normally discharged along the first discharge channel, and the other one of the parts is discharged through the second discharge channel, the flow of the water discharged from the second discharge channel is raised upwards and ejected under the action of a flow deflecting mechanism, the flow of the water discharged from the first discharge channel collides with the flow of the water discharged from the second discharge channel through the guiding action of a flow guiding mechanism, and thus energy dissipation is achieved. The water conservancy and hydropower project energy dissipation method has excellent energy dissipation effect.

Description

technical field [0001] The invention relates to the technical field of water conservancy and hydropower engineering, in particular to an energy dissipation method for water conservancy and hydropower engineering. Background technique [0002] At present, with the gradual development of hydropower resources in mountainous rivers in my country, the development of hydropower engineering construction in China has entered a climax stage, especially in the western mountainous areas where a large number of small and medium hydropower stations have been built. The water flow in natural rivers is generally a slow flow, and the single-width flow distribution along the river width is relatively uniform. However, when drainage structures such as dams and sluices are built in the river, the flow conditions of the river have undergone tremendous changes, and the flow velocity and energy of the discharged water are large, which has a great destructive effect on the riverbed downstream of t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E02B8/06
CPCE02B8/06
Inventor 张焕敏付成华王非
Owner XIHUA UNIV
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