SU952759A1 - Sand trap - Google Patents

Description

(54) GRINDING

Claims (1)

The invention relates to wastewater treatment plants, and more specifically to sand catchers. A sand trap with circular movement of water is known, which is a cone-shaped reservoir, in the upper part of which there is a circular tray. Sewage liquid is supplied to the structure tangentially and falls into the tray, in the lower part of which there is a slot designed for the deposition of sand. The sand, sliding along the walls of the sand trap, falls into the lower part of the tank, from which the hydraulic elevator 1 is removed. However, in the well-known sand trap there is a dead volume of liquid, where, besides sand, organic substances that rot and float there are slipping. At the same time, a significant amount of the structure is unused. The disadvantage of these dogs is the low sand retention efficiency. The chain of the invention is to increase the effectiveness of sand retention and the elimination of a stagnant zone in the price of re-construction. This goal is achieved by the fact that in a sand trap with circular movement of water, which has a circular slotted tray and a central part in which a hydraulic elevator is installed, an aeration tube is installed in a circular tray, and in the central part a vertical discharge pipe with a funnel submerged below the fluid level. The proposed design provides for the elimination of the stagnant zone in the central part of the sand trap, as well as an increase in the efficiency of sand retention with the same sand trap productivity due to aeration of the circular tray, where sand washing off organic impurities is also observed. This also contributes to a more complete use of the central part of the sand trap, which is achieved by draining water from the central part by installing a vortex water funnel in its center. FIG. 1 isobril sand catcher, plan; in fig. 2 shows section A-A in FIG. 1. A sand trap is a cone-shaped tank 1, in the upper part of which there is a slotted circular tray 2, where aerators are installed (for example, perforated pipes) 3 located at the inner wall of the tray. Air to the aerators is supplied through the air duct 4. In the central part of the sand trap, a drain pipe 5 is submerged under the liquid level, the lower end of which is led through the side wall of the sand trap to the drain channel 6. In the lower sand trap area there is a hydraulic elevator 7, and at the outlet of the structure - water, The sand trap works as follows. Sewage fluid enters the circular tray 2, where it is aerated with perforated pipes 3 and sand falls out of it, which creeps along the walls of tank 1 into its lower part and is removed by hydraulic elevator 7. Part of the waste liquid flows through the slot in the circular tray 2. the central part of the sand trap where the flow is curled up and sand falls out, from where it is discharged through the diverted flooded pipe 5 and the diversion channel b. The speed of the waste liquid in the circular tray 2 is regulated by a weir or a shield valve 8. The proposed sand trap design, due to an increase in the working volume of the structure and aeration of the circular tray, makes it possible to increase the sand retention efficiency in comparison with conventional sand traps with circular water movement by about 25% moreover, it allows the sand to be retained with a particle size of 0.2 mm. For example, for sand traps with circular motions of water operating at the Krasnoselskaya aeration station in Leningrad, the construction length of the circular, whose tray is 12 m, the required length of the tray for holding the sand of 0.2 mm in size after the proposed reconstruction is 4 m. With a wastewater discharge per station of 70 thousand, the amount of sand retained is currently 3.5, the amount of sand in the sediment of the primary settling tanks is 3.2 m / day. After the proposed reconstruction, the amount of sand in the sediment of the primary clarifiers is 2.51, i.e. the efficiency of the sand catcher increases by 23.48%. The Humboldt centrifuge installed at the station is designed to work with a gang containing grains of particle size not exceeding 0.2 mm. Therefore, the proposed sand trap design allows a significant increase in the operation time of expensive imported equipment due to less wear on the centrifuge auger. In addition, the advantage of the proposed design is the improvement of the sanitary and hygienic conditions of operation of the sand trap by eliminating the stagnant zone in the center of the structure, as well as the possibility of fulfilling the proposed design by simple reworking of already operating sand traps with circular movement of water. A sand catcher comprising a conical shaped body located in the upper part of the body a circular slotted tray and in its lower part a hydraulic elevator, characterized in that it has aerators installed in the tray in order to increase the efficiency of sand retention and eliminate the stagnant zone in the center of the structure. and a discharge pipe with a funnel placed under the liquid level. Sources of information taken into account in the examination 1. S. Yakovlev. and others. Sewers. M., stroiizdat, 1975, p. 225. S