SU1618832A1 - Structure for mixing water streams in connecting uncover canal - Google Patents

Description

one

(21) 4686187/15 (22) 03.05.89 (46) 07.01.91. Bul №1

(71) Kuban State Design and Research Institute Kubzhyprovodkhoz

(72) S.I. Fedorova, S.A. Zheludkov and V.A.Mikheev

(53) 627.837 (088.8)

(56) USSR Author's Certificate N: 983213, cl. E 03 F 5/26, 1982.

USSR Copyright Certificate №896174, cl. Е 02 В 13/00, 1980. (54) CONSTRUCTION FOR MIXING WATER FLOWS WHEN CONNECTING OPEN CHANNELS

(57) The invention relates to hydraulic engineering, in particular to structures for connecting open streams in channels. The purpose of the invention is to ensure uniform mixing of flows across the entire width of the discharge channel. The structure consists of a supply channel 1 of clean water, a supply channel 2 of saline water, and an outlet channel 3. The open supply channel 2 of mineralized water has gates 4, an overflow wall 5 behind them forming the receiving chamber 6 before entering connecting pipe 7. The outlet openings of pipes 7 are connected to evenly spaced 3 holes 9 over the entire width of the bottom of the outlet channel. Through channel 2 the mineralized water flows due to overflow through the overflow wall 5 with increased turbulence to the receiving chamber 6, from where it is distributed evenly across the width of pipes 7 channel 3, providing intensive diffuser dilution of saline water in pure water, 3 sludge.

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The invention relates to hydraulic engineering, in particular to structures for connecting open streams in channels.

The aim of the invention is to ensure uniform mixing of streams across the entire width of the outflow channel.

FIG. 1 shows a structure for mixing water flows in open channels with mating channels at an angle of 90 °, plan view; in fig. 2 - the same, with a parallel arrangement of channels; in fig. 3 shows section A-A in FIG. one.

The structure for mixing the water flows consists of two supply channels 1 and 2, as well as a discharge channel 3. Through channel 1 pure water is supplied, and through channel 2 - mineralized. The open channel 2 with saline water has gates 4, an overflow wall 5 behind them, forming a receiving chamber 6 before entering the mating device, made in the form of horizontal pipes adjacent to each other parallel to the side of the channel 7, located below the bottom of the channel The openings 8 of which are connected to evenly spaced across the entire width of the bottom of the discharge channel 3 openings 9, which form the output section of the coupling device.

The construction works as follows.

Through channel 2, the mineralized water, the required flow of which is controlled by the closures 4, flows through the overflow wall 5 into the receiving chamber b with increased turbulence due to the overflow through the wall 5. The receiving chamber b ensures a uniform flow of saline water into the reinforced concrete pipes 7, from which water flows through the outlets 8 pipes 7 connected to evenly spaced across the entire width of the bottom

the channel 3 by the holes 9 is poured out over the entire section of the channel 3 below the level of the clear water. Due to turbulent exchange, there is an intensive diffuser dilution of saline water in clean water, and this

allows you to use further water for irrigation in a certain concentration.

Claims (1)

Claims An arrangement for mixing water flows when connecting open channels, including a discharge channel and two inlets, one of which is perpendicular to the discharge channel and has a mating device with an output section at the bottom of the discharge channel across its width, differing By the fact that, in order to ensure uniform mixing of the streams across the entire width of the outflow channel, the coupling device made in the form of parallel-laid, horizontal, adjacent to each other side surfaces of pipes located under the bottom of the channel; moreover, the supply channel of the coupling device is equipped with gates and an overflow wall located behind them forming the receiving chamber in front of the inlet openings of the pipes; the length of the pipes increases in the direction of flow in the outlet channel from the channel wall closest to the receiving chamber to the far one, and the outlet section of the coupling device is formed by holes in the channel bottom connected to the outlet holes of the pipes.  / X / /// /// Fig.Z