SU1755867A1 - Method of cleaning high-concentration waste water - Google Patents

Abstract

This invention relates to the treatment of highly concentrated sludge-containing wastewater. The goal is to increase the efficiency of water purification and to extract a useful product from it while reducing energy consumption. The method of purification of highly concentrated wastewater includes clarification in two stages. In the first stage, the invention relates to the treatment of highly concentrated wastewater with a polydisperse solid phase and can be used in the mining industry, in the metallurgical and engineering industries. The purpose of the invention is to increase the efficiency of water purification and release of a useful product. The drawing shows a setup diagram for implementing the proposed method. The method of purification of highly concentrated wastewater involves the purification of water in two steps, the first of which is divided into suspended grain particles of 0.16 mm to obtain a bottom product with a solids content in the liquid in a ratio of 1/3 to 1/4. The bottom product of the first stage is dewatered to obtain a transportable sludge and sludge-containing runoff. In the second stage of clarification, the solid suspended particles contained in the top product of the first stage are separated in a boundary grain of 0.005 mm to obtain clarified water and sludge containing effluent with a solids content in the liquid from 1/2 to 1/3. In this case, the top product from the first stage of clarification to the second stage is fed by gravity. The sludge-containing drains of the dehydration of the lower product of the first stage and the sludge-containing drains of the second stage of clarification are fed by gravity to the sedimentation. Clarified water enters the production process. A useful product isolated during clarification in the form of a transportable sludge enters the warehouse 1 sludge. the solid particles suspended in water are divided along the drp 0.16 mm boundary grain to obtain a bottom product with a solid content in the liquid in a ratio of 1/3 to 1/4, and in the second stage of clarification the solid particles contained in the liquid on the boundary grain of 0.005 mm to obtain clarified water and sludge-containing runoff with solids content in the liquid from 1/2 to 1/3, which stand together with the sludge-containing drainage drain of the lower product of the first stage of clarification, with CO and ate 00 o J

Description

In this case, the top product from the first stage of clarification to the second stage and sludge-containing drains are supplied by gravity for settling.

The method is carried out on an installation that includes a successively installed receiving tank 1, made in the form of a thin layer thickener with a flow rate quencher 2, an overflow device 3 and a discharge pipe 4, and a block of thin layer clarifiers 5 with a distribution manifold 6 located between them.

Drain pipes 7 of thin-layer clarifiers 5 are hydraulically connected to a tank for clarified (clean) water 8 with a centrifugal pump 9, and pipes 10 for removal of sludge-containing drain with a sludge collector 11.

Under the discharge pipe 4 of the receiving tank 1 is placed a spiral classifier 12, under the discharge hatch of which a belt conveyor 13 is installed to transport sludge to the finished product storage 14.

The method of purification of highly concentrated wastewater is carried out as follows.

The source wastewater enters the receiving tank 1 through a flow rate quencher 2, designed in such a way that provides not only the repayment of the energy of the stream, but also the retention of large non-ferrous inclusions, which are periodically removed from it outside the installation. In the receiving tank 1, which is designed as a thin layer thickener, which operates according to the principle of separation of a solid component in a thin layer of a moving liquid, a separation along the boundary grain of 0.16 mm occurs. At the same time, through the discharge pipe 4, the bottom product with a solid content of 1 / 3-1 / 4 enters the dewatering spiral classifier 12, and the top product containing smaller fractions enters the overflow device 3, from where it flows through clarifiers 5. In the spiral classifier 12, the lower product of the first stage of clarification is dehydrated to a transportable state, after which, using a belt conveyor 13, the sediment is transferred to the finished product storage 14, and osoderzhaschy drain spiral classifier 12 is fed by gravity into the chip catcher 11.

In thin layer clarifiers 5, the introduced top product is clarified, with

this is the separation of solid particles on the boundary grain 0.005 mm.

The clarified water through the drain pipe 7 by gravity enters the tank for

clean water 8, where it is using a centrifugal pump 9 is fed back into the process. The sludge-containing ayi drain formed in the thin-layer clarifier 5. through the nozzle 10 enters

by gravity into the sludge tank 11, from where it is periodically removed outside the installation.

If necessary, clean water from an external source can be added to the clarified (clean) water tank 8 to compensate for its losses in the process (make-up).

Thin-layer thickeners and clarifiers are high-performance and highly-efficient equipment that provides high quality separation according to a given boundary grain.

The separation grain size of 0.005 mm in the thin layer clarifier 5 is determined by the following conditions. When dispensing over the boundary grain of more than 0.005 mm, the solids content in the clarified water will be so significant that it will not meet the requirements

technological process. When the separation on the boundary grain is less than 0.005 mm, the dimensions of the installation increase significantly, which will affect its economic and operational performance.

In the clarification of wastewater in the first stage to a solid content of 1 / 3-1 / 4 in the lower product is explained by the following conditions. When the solid content in the bottom product is less than 1/4, the dehydration conditions in the spiral classifier 12 worsen, since when a large amount of the liquid component is fed into it, the loss of the useful product into the drain and the moisture content of the dehydrated product increase, which negatively affects the technical and economic indicators of the installation. When the content of solid in the lower product of the first stage of clarification is more than 1/3, the size of the inlet pipe 4 of the first stage of clarification increases with larger particles contained in the wastewater, which adversely affects the reliability of the installation.

5 The range of solids content in the sludge-containing second stage clarification is explained as follows.

By reducing the solid content

In the sludge-containing runoff, the amount of water which is removed along with the solid component in the sludge collector increases below 1/3, which leads to a decrease in the efficiency of the production line.

With an increase in consistency above 1/2, sediment transportability deteriorates, which can lead to a decrease in reliability, and consequently, the efficiency of the production line,

Thus, the method of purification of highly concentrated wastewater with the release of a useful product allows to increase production efficiency with low-waste technology and environmental protection while reducing energy consumption.

Using the proposed method 1 significantly reduces production waste and reduces water consumption, which leads to improved economic performance and contributes to environmental protection.

Example: Highly concentrated wastewater at a solids content of 0-5 mm in size in the ratio of solid to liquid T: W 1:20 is fed to the first stage of clarification when separated by drp grain 0.16 mm. As a result of clarification, the top product is obtained with a T: W ratio of 1:68 and the bottom product is T: W 1: 4, after which the top product is directed by gravity to the second stage of clarification, and the bottom product is sent to the dehydration in a spiral classifier, where the selection of a useful product in the form of a transportable sludge having a moisture content of 20%, and sludge-containing runoff with a T: W ratio of 1: 119. The sludge is directed to the warehouse with a belt conveyor, and the sludge-containing drain is directed to settling in the sludge collector. In the second stage of clarification, the separation of solid particles is carried out on the drp boundary grain. 0.005 mm on five blocks of thin-layer clarifiers of standard size

T0-4x2. The resulting clarified water with a content of 1/816 is directed to the tank for clean water, and the slurry-containing drain with solids content in the liquid in a ratio of 1/3 by gravity is sent to the sludge pit.

Clean water is added to the clean water tank. As a result, clarified water with a solids content of a particle size of less than 0.005 mm in a T: W ratio of 1: 1000 is fed into the process, which meets the standards of technological design of enterprises of building materials.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION The method of purification of highly concentrated wastewater includes the purification of water in two stages, in the first of which the separation of solid suspended solids in water is carried out along drp boundary grain. 0.16 mm, dewatering the lower product of the first stage of clarification to obtain a transportable sludge and sludge-containing runoff, drainage of clarified water and sludge, characterized in that, in order to increase the efficiency of water purification and the removal of useful product while reducing energy costs lighten to a bottom product with a solids content in the liquid in a ratio from 1/3 to 1/4, and in the second stage of clarification, the contents in. liquids, suspended solids are divided along the boundary grain of 0.005 mm to obtain clarified water and sludge-containing runoff containing solids in the liquid from 1/2 to 1/3, which stand together with sludge-containing drainage drain of the lower product of the first stage of clarification, while the top product from the first stage of clarification to the second stage and sludge-containing drains are supplied by gravity to the sedimentation. 7 5 innings technologically; : process