SU1369751A1 - Apparatus for clarifying slime water - Google Patents

Abstract

The invention is related to devices for wastewater treatment from contamination by the method of sedimentation under the action of gravitational forces, can be used primarily for clarifying slurry pods and allows to increase the efficiency of clarification and simplify the design of the apparatus. The apparatus for clarifying slurry water contains sedimentation elements in the form of concentrically located upside down cones (K), odd K in the upper part has overflow holes, even K has provided by-pass tubes located in their lower part, the sludge discharge unit is designed as coaxially mounted another pipe connected to the vertices of K, the distance between the walls of neighboring K in the direction from the axis to the periphery decreases, due to which the path of deposition of particles decreases and the effective st deposition. 4 hp f-ly, 2 ill. s (c ate

Description

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The invention relates to devices for the treatment of wastewater QT pollution by the method of precipitation under the action of gravitational forces and can be used primarily for clarifying slurry water.

and (spruce of the invention) 1i — improving the efficiency of clarification and simplifying the device.

In Fig.1 schematically shows the proposed device, a longitudinal section; 2 shows the construction of the overflow pipe.

The apparatus for clarifying the water contains sedimentary elements in the form of concentrically ground-up cones 1-5. The bases of the odd cones have by-pass holes 6, the total cross-section of which is the same in each cone. In the lower part of the even cone there are overflow tubes 7 for clarifying the liquid. The sludge outlet is made coaxially mounted one above the other by branch pipes 8, connected to the vertices of the cones and having a cross section increasing from top to bottom. The cone 5 has a branch pipe 9 at the base to release clarified water with a valve 10, and at the top - a branch pipe 1 1 for the withdrawal of sediment, equipped with schdzozovym shutter 12. In the upper part of the apparatus along the axis are located the loading nozzle 13 and the reflector 14. The nozzles 9, 11 and 13 are the points of control of the flow and sludge.

The valve of the nozzle 9 regulates the release of clarified water, the nozzle 11 provided with a sluice gate is the rate of sediment removal from the apparatus, the valve of the nozzle 13 is the flow rate of the clarified liquid.

The device works in the following way.

The clarified liquid through the inlet pipe 13 and the reflector 14 enters the central cone 1. It is controlled by the valve of the outlet 13 of the axial liquid and changes its speed inside the device, which allows choosing the optimal mode of settling depending on the content of suspended substances in the water. and hydraulic particle size. The heaviest particles are 11 (; go to the top of the cone. Small pox flux (m; 1 liquid according to

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the principle of communicating vessels through the bypass holes 6 at the base of the cone 1 moves into the space between the cones 1 and 2. Here, the deposition of particles continues. The clarified liquid flows through the overflow tubes 7 into the next cavity, and the sediment slides down towards the cylindrical outlet 8 for the sediment. In the process of fluid movement, precipitation of particles occurs and they slide to the nozzle 11 to remove the sediment.

The adjustment of the rotational speed of the sluice gate 12 allows the selection of the optimal rate of sediment removal from the apparatus, depending on the properties of the clarified water.

The clarified liquid is removed from the apparatus through the pipe 9. The valve of the pipe 9 controls the flow rate of the clarified hearth. The flow area between the cylindrical outlet nozzles 8 for the sediment and the side surface of the cones decreases from the top downwards. The distance of the MELS by the walls of the adjacent cones in the direction from the axis to the periphery decreases, due to which the interconus spaces have the same volumes.

Due to the decrease in the distance between adjacent cones from the center to the periphery, the path of sedimentation of particles decreases, and the increase in -1n-1 begins to e (x) the deposition efficiency.

The use of the proposed apparatus allows, in comparison with the known apparatus, with the same productivity, a reduction in size by 25-28% and an increase in deposition efficiency by 43-52%.

Formula} 13 gain

1. An apparatus for clarifying osamine waters, including sedimentary elements, made in the form of concentrically located upside down cones, node c) of sediment water, loading and unloading 1) 1st branch pipe, which, in order to increase efficiency and simplify the structures, the bases of all the cones are on the same level, the odd cones are made with holes in the upper part, the cones are provided with overflow Tpvi iKaMn,

Editor L.Ponkhan

I №

Compiled by T. Ledneva

Tehred M. Khodanich Proofreader L. Pilipenko

Claims (3)

Claim 1. The apparatus for clarification of sludge water, including sedimentation elements made in the form of cones concentrically arranged with the base upward, a sediment outlet unit, loading and unloading nozzles, characterized in that, in order to increase efficiency and simplify the design, the bases of all cones are located on one the level, the odd cones are made with holes in the upper part, the even cones are equipped with bypass tubes located in their lower part, while the sediment outlet unit is made in the form of coaxially mounted dr ug above the other nozzles connected to the tops of the cones and having a section increasing from top to bottom. 2. The apparatus according to claim 1, characterized in that the distance between the lateral surface of the cones decreases from the center to the periphery. 3. The apparatus according to claim 1, from which I am with the fact that