SU1749362A1 - Method of suppressing flow energy - Google Patents

Abstract

This invention relates to hydropower. The aim of the invention is to increase the efficiency of quenching the energy of the streams on the spillways and reducing the dynamic loads on the lower rifle attachment. This goal is achieved by quenching the energies by striking the jets at an angle "one to another" at the distance of the spillway faces of the spillway, where I is the length of the core of constant flow velocities 1 silt

Description

FIELD OF THE INVENTION The invention relates to hydropower industry and the field of application is the water disposal structures of hydropower plants.

The purpose of the invention is to increase the efficiency of the waste energy of the waste stream and reduce the dynamic loads on the downstream fixture:

Flows descending from the spillway face are angled to one another symmetrically with respect to the horizontal plane, and the flows are collided at a distance LI cos (a / 2) from the end of the spillway spillway, where is the length of the constant velocity core. .., -,

The drawing shows a device for implementing the method of quenching the flow of energy, a longitudinal section.

The device includes a spillway face 1 of the spillway, which is mated with a straight line section ending in a bow of the grampline, a divider 2 of the discharge flow, monolithic with the lateral foundations of the 3 spillways. The lower edge of the divider is made according to the shape of the end part of the spillway spillway face, and the upper one at the head is curved, smoothly.

flat surfaces, in the end part - inclined to the horizon at an angle a / 2, where L is the angle between the axes of the upper 4 and lower 5 streams formed by divide / so ;;

The operation of the device implementing the method of quenching the flow energy consists in the JOM, that the main discharge flow moving along the spillway 1 of spillway 1 at the head of divider 2, mounted with the lateral foundations 3 of the spillway, is divided into two flows 4 and 5, which at the end of the divider are directed to join one another with an angle of ", at which the maximum effect of quenching the kinetic energy of these streams is achieved during their subsequent collision after leaving the divider. The greatest quenching effect of the kinetic energy during the interaction of the jets is achieved when the particles of one jet penetrate the other. This phenomenon occurs outside the core of constant speeds, length I, submerged jets. When the jets interact within the core of constant velocities, the connection of the flows and the quenching effect occurs: the energy is insignificant. Therefore, the junction of the jets is

(L

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at the end of the core of constant speeds, where the dro jet is already fragmented, i.e. at a distance L I cos (cr / 2).

The fragmented parts of the submerged jets at the boundaries between the jets and the surrounding medium begin to interact at a distance from the end of the spillway.

the faces of the spillway are smaller than LVt on a significantly larger area than non-submerged jets. With the interaction of 10 crushed parts of the jets within

between the jets and their environment, the particles of one jet penetrate into the other and due to the large area

the friction between trickled into small particles 15 provides an effective effect. quenching of energy in almost the entire volume of water,

The method of quenching the flow energies, which includes splitting it in a vertical plane into two streams at the end of the spillway of the spillway and subsequent dryness, can be used on the spillway structures, which have a water well in its left, also without water - 25

him well Increase efficiency

Energy recovery of the waste stream and reduction of dynamic loads for fixing the lower pool reduces the cost of building hydropower plants by reducing the cost of building massive water structures and producing lower-end power plants.

Claims (1)

Invention Formula The method of extinguishing the energy of the stream, including splitting it into separate streams in a vertical plane at the end of the spillway spillway and their subsequent collision, characterized in that, in order to increase the efficiency of extinguishing the energy of the discharge stream and reduce the dynamic Load on the downstream attachment, from the spillway face, are directed at an angle a to one another symmetrically with respect to the horizontal plane, with the collision of the flows Lh occurring at a distance L 1 from $ (a / 2} of the drainage face to osbrosa where I - the length of the core permanent flow rates.