SU1744184A1 - Damper of flow energy in high flow-rate open canals - Google Patents

Abstract

The invention relates to the field of hydraulic engineering, in particular, to the energy absorbers of the flow in fast open channels with a slope greater than critical. The purpose of the invention is to increase the efficiency of the fast channel by increasing its capacity by ensuring an even distribution of the flow depths in the transverse channel. This goal is achieved by the fact that in the proposed energy quencher, which includes elements in the form of square partitions located on the bottom of the channel, the extinguishing elements are made in the form of a grid with square cells, while the faces of the first cells in the flow are zigzag against the flow, and the grids contain two or more whole square cells located in the transverse channel of the channel. 1 il. yo

Description

The invention relates to hydraulic engineering, in particular to water flow energy absorbers on fast open channels with a slope greater than critical.

A water flow energy extinguisher is known, which includes extinguishing elements in the form of square partitions located at the bottom of the channel, made in the form of a double zigzag directed along the flow, when flown around which the quenching effect is enhanced due to the impact of the jets.

The disadvantage of this extinguisher is that when it is flowed along the length of the fast-flowing channel, transit areas are formed with a reduced depth, high speeds and aeration rate along the channel axis and at the sides, and with a greater depth, lower speeds and aeration rate between the axis and sides of the channel. In addition, when skipping high costs, the formation of oblique waves is possible.

The closest to the proposed technical solution is an energy absorber, which includes extinguishing elements in the form of square partitions located on the bottom of the channel, made in the form of a double zigzag directed towards the flow.

The disadvantage of such a quencher is that when flowing around it along the length of the fast-flowing channel, transit areas are formed, characterized by elevated VI.

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depth, lower speeds and degrees of aeration, located along the canal axis and at the sides, and areas with reduced depth, greater speeds and degrees of aeration, located between the canal axis and the sides, uneven distribution of flow depth in the transverse section and high aeration rates, resulting from the pronounced jet zones of reduced pressure, reduce the capacity of the structure.

The purpose of the invention is to increase the efficiency of the fast channel with energy absorbers by increasing the throughput by ensuring a uniform distribution of the depth of flow in the transverse range.

The goal is achieved by the fact that the energy absorber of rapid open channels, including damping elements in the form of square partitions located at the bottom of the channel, is made in the form of a grid with square cells, while the faces of the first cells along the flow are zigzag against the flow, and the grids contain two or more whole square cells located in the transverse channel of the channel.

The drawing shows an energy absorber, plan view.

The energy absorber of fast open channels includes damping elements c. the form of partitions 1 of square section, made in the form of a lattice with square cells 2, while the faces of the first downstream cells 3 are located in a zigzag towards the flow.

The proposed design of the quencher allows eliminating clearly pronounced transit areas 4 and 5 with increased and decreased pressure, redistributing them in a staggered order, which ensures a uniform distribution of depth in the transverse channel and increases its throughput. The absence of transit jet zones for the transition from elevated pressure to lower pressure reduces the degree of flow aeration, which also leads to an increase in the capacity of the structure.

The redistribution of areas with high and low pressure in a checkerboard pattern enhances the quenching effect.

In the proposed energy quencher, three well-known principles are realized - reactive, manifested in the fact that when a flow rushes over the partitions, an obstruction reaction occurs, a distributive one, manifested in the fact that due to the distribution of areas of increased and decreased pressure, in a chess order, dephasing occurs. sources that lead to wave formation, which contributes to energy dissipation, and dissipative, manifested in the fact that

is enhanced by the impact of the jets, and in the proposed extinguisher the colliding jets occupy a larger area per unit length of the channel than in the prototype. Application of the proposed quencher

energy reduces the amount of work and the cost of building fast open channels by reducing the height of the sides of the structure.

Claims (1)

Invention Formula The energy absorber of the flow in the fast open channels, including dampening elements in the form of partition walls, located at the bottom of the channel and located zigzagging against the flow, is characterized by the fact that, in order to increase its efficiency by increasing the channel capacity by ensuring uniform distribution flow depths in transverse the target, the damper is equipped with additional partitions connecting the tops of the zigzag damping elements with the formation of a cellular structure in the plan, whose cells are square in shape, moreover, in any cross section of the channel, the quencher contains at least two cells.  5/2