SU947313A1 - Sewage outlet arrangement - Google Patents

Description

(54) DEVICE FOR DRAINING OF WASTEWATER

one

The invention relates to a device for the discharge of wastewater into watercourses and water depots, is intended for use in the field of water protection measures for the treatment of water of industrial enterprises, and can also be used as a device for supplying reagents to water treatment.

A device for the discharge of wastewater is known, comprising a supply pipe, a mixing chamber made in the form of a Venturi pipe, a discharge pipe and an aeration pipe 1.

The known device is intended for the discharge of treated wastewater with simultaneous suction of air into the flow of wastewater 15 before discharging them into the reservoir. In this case, an intensification of the self-purification processes in the reservoir is expected by saturating the waste water with oxygen contained in the drawn air. However, when the air with a significantly smaller specific gravity is drained into the wastewater, air is mainly collected in the upper layers of the water, which leads to a decrease in the efficiency of displacement and saturation of the wastewater with oxygen. At the same time, air may accumulate in the nodal areas (branches in the diffusing outlet) and there may be associated disturbances in the operation of the outlet.

In addition, the known device for the discharge of wastewater is not involved in the treatment of water.

The purpose of the invention is to increase the effectiveness of the treatment of wastewater of a reservoir by improving the contact of treated wastewater with the input medium and intensifying the dilution of wastewater in a reservoir.

Claims (2)

This goal is achieved by the fact that in a wastewater discharge device containing a supply pipe, a mixing chamber made in the form of a Venturi tube, a discharge pipe and an aeration pipe, the discharge pipe is provided with a guide plate located on its inner surface along a helical line. whose angle of inclination to the axis of the pipeline is 3-60 °, and the aeration pipe is provided with a pipe for introducing the reagent. The internal diameter of the discharge pipe is chosen according to the formula of TTITTAG 1 and -V where Q is the flow of wastewater, Q2 is the flow of reagent, QJ is the flow of air, V is the velocity of the fluid in the discharge pipe, m / s. FIG. 1 shows schematically a device for the discharge of wastewater, a general view; in fig. 2 shows section A-A in FIG. 1. The waste water discharge device comprises a pressure pipe 1 to which the venturi 2 is connected, the mixing pipe 3 is connected to the outlet, and the aeration pipe 4 to which the reagent supply system is connected is connected to the constricted part of the venturi 2. On the inner surface of the mixing tube 3, along a helix, the angle of inclination of which is chosen in the range from 3 to 60 °, a guide plate 5 is installed, which has a rectangular profile in cross section. The internal diameter of the mixing tube 3 is chosen according to the formula D .5: i, Ь 1-V Gder, - wastewater flow, Q2 - flow of the reagent fluid, QJ - air flow, V - average over the pipe section, velocity, m / s. The height of the guide plate 5 is chosen in the range from 0.1 to 0.16 of the internal diameter of the mixing tube 3. The outlet of the mixing tube 3 is located in the receiver-6 of treated water, i.e. in a pond or watercourse below the water level in them. The aeration pipe 4 has a control valve 7. The reagent supply system includes a tank 8, a pipe 9 with a valve 10. The pipe 9 is attached to the narrowed part of the Terenturi pipe 2. In this case, the pipeline 9 is connected to the aeration pipe 4, and to its part between the Venturi 2 and the controlled valve 7. For ease of operation, the Venturi 2 is placed in the well 11. The device works as follows. On the pressure pipeline 1 serves the waste water to be chemically treated and then discharged into the receiver 6, i.e. the reservoir. With the passage of waste water through the venturi pipe 2 in the constricted part of it, a vacuum is created, due to which, with the open controlled valve 7, the air through the aeration pipe 4 is drawn into the waste water. If the waste water requires chemical treatment, the control valve 10 is opened. In this case, the reagent, which uses sulfuric acid in the treatment of wastewater, such as alkaline water, flows from tank 8 through pipe 9 to aeration tube 4, is displaced with air and sucked into the venturi 2 by lowering the pressure in the constricted portion of the pipe, connecting it to the flowing stream of waste liquid. The mixture of waste liquid with reagent and air obtained in the Venturi tube 2 enters the mixing tube 3 where it acquires a screw motion due to the guide plate 5, due to which stratification of water, air and the reagent having different specific weights is prevented. and contacting. Having been enriched with oxygen and having been chemically treated in the mixing tube 3, the waste liquid is discharged into the reservoir 6 below the water level, the air bubbles rising upwards promote the movement and saturation of the water of the reservoir 6 with oxygen, thereby intensifying the process of self-purification of the reservoir 6. Example. A pilot installation of a wastewater discharge device is tested at an industrial plant. The installation serves wastewater with a concentration of NaOH 1.5%. Neutralization of alkaline effluents of sulfuric acid with UB / O-NOY. The active reaction of neutralization effluent is pH 6.5-8.5. As a result of the sewage passing through the device, a complete chemical neutralization reaction occurs, and the waste water discharged into the watercourse complies with the sanitary standards determined with a pH meter pH 6.5-8.5. The economic effect of using one proposed device with the consumption of wastewater containing a 1.5% solution of alkali, and equal to 8 days, it is 2.5 thousand rubles. in year. Claims 1. A waste water discharge device comprising a supply pipe, a mixing chamber made in the form of a Venturi tube, a discharge pipe and an aeration pipe, characterized in that, in order to increase the efficiency of waste water treatment by improving the contact of treated waste water with introduced by the medium and the intensification of wastewater dilution in the reservoir, the discharge pipe is provided with a guide plate located on its inner surface along the helical