SU1713893A1 - Device fie sewage purifying - Google Patents

Abstract

The invention relates to the treatment of wastewater and sludge treatment and reduces the time spent on wastewater treatment and sludge treatment, reduce energy costs while maintaining the quality of treated water by implementing water purification and sludge treatment in one process mode. The installation consists of a housing 1 in the form of a pipe with a coaxial pipe 2. In the upper part of the pipe 2, a device 3 is placed, guiding the flow along a helical trajectory, with a step directly proportional to the depth 1. '„

Description

shells, and a mixing device 4 for collecting and supplying returnable activated sludge and wastewater. The flotation chamber 5 is located in the upper part of the hull and is equipped with a modular flow divider. A flotator-clarifier 7 adjoins the chamber 5, the lower part of which is made in the form of a conical rim 8 for collecting and removing the settled sediment. The clarifier float is divided into two parts by a sloping partition 9 with a curved end 10 for carrying out sludge flotation and water clarification in one volume. In the lower part of the inclined partition 9 between its curved end} l and the wall of the flotation chamber 5 a thin layer module 11 is placed for the removal of wastewater from the fine fraction. In the upper part of the clarifier there is a collector for collecting clarified water, equipped with a discharge pipe 13. In the upper part of the flotator there is a drainage 14,

coinciding along the perimeter with a flow divider 6, and a tape divider 15, dividing the floated layer into active return sludge and excess sludge, with a variable perimeter. Flotator-clarifier 7 is equipped with a storage device 16 sediment. The device for supplying oxygen-containing gas is made in the form of a water-jet nozzle 17 with an elongated nozzle; it is equipped with an inlet pipe 18. In the lower part of the body 1 a helical device 19 is placed with a step inversely proportional to the depth of the body. The device can produce the separation of a two-phase mixture into two components and ensure their complete separation. When combining such plants, treatment facilities for cleaning waste water of any capacity can be arranged at a small site and reduce construction and operation costs. 1 hp f-ly. 1 il.

The invention relates to the treatment of water, industrial and domestic sewage water, mainly the treatment of municipal, domestic wastewater, and can be used for the joint purification of municipal, industrial and industrial wastewater by treating the formed sludge.

The purpose of the invention is to reduce the volume of construction and save energy.

The drawing shows the installation of wastewater treatment and sludge treatment.

The device consists of a body 1, which is a cylindrical tube with a coaxially arranged internal cylindrical tube 2, in the upper part of which the device 3 is stirred, made in the form of a helical guide element with a pitch increasing from top to bottom, i.e. pitch li (at the top of the element) 2 (pitch in the lower part of the element), and a mixing device 4 for collecting and supplying the return activated sludge and waste water, which is a cylinder with the lower part in the form of a truncated cone. The flotation chamber 5 is located in the upper part of the housing 1 and is equipped with a modular flow divider 6, which is a system of inclined coaxial plates fixed in its lower part at equal distances from each other and constituting the angles of inclination to the central axis, increasing towards the periphery. Near the perimeter of the chamber 5 is a coaxially adjacent floatator-clarifier 7, which is a cylinder with a conical attachment 8 for collecting and removing the settled sediment, equipped with an inclined partition 9, dividing

it on the flotation cell and brightener, equipped with an element 10 located parallel to the conical with a MCU, in the lower part of the clarifier is placed a thin-layer module 11, in its upper part - a collector 12 for

collection and removal of clarified water, equipped with a discharge pipe 13. In the upper part of the flotation cell, above the modular divider 6, there is an oil drain 14, which coincides with it along the perimeter, and a ribbon divider 15 for separating the sludge into excess sludge and active sludge, which is a cylinder equipped with a partition made in the form of a spiral, covered with plastic wrap and having feeders for changing the perimeter and floats

to keep it afloat. Along the perimeter in the lower part to the body of the floatator-brightener. 7 adjoins reservoir 16 of sediment, which is a cylinder with a flat

bottom. The device for supplying oxygen-containing gas is made in the form of a nozzle 17 with an elongated nozzle and supply pipe 18. In the lower part of the housing 1, the annular space is provided with a device 19, which is made in the form of a guide screw element with a step increasing upwards, i.e. step 1h (at the bottom of the element) 14 (step at the top of the element) ..

The installation works as follows.

Sewage fluid through conduit 18 is fed into the water jet nozzle 17c with an elongated tube where air is sucked from the atmosphere, then from the nozzle 17 the mixture enters the mixing device 4, where activated sludge flows by gravity, then the mixture of water, gas and sludge enters the tube 2 and through the screw-shaped device is 3 steps apart, directly proportional to the depth of the housing 1. is lowered. As water moves downward in pipe 2, the biological cleaning process begins, pressure increases and all gas dissolves in the liquid. Going down the housing 1, the mixture enters the annular space with a screw-like device 19 with a step inversely proportional to the depth of the housing 1. As the mixture rises in the housing 1, the wastewater continues to be cleaned, an excessive amount of gas bubbles is emitted in a continuous flow in the chamber 4, flotation of sludge takes place, which is divided by the divider 6 as a splatting layer over the surface of the water of the floatator-clarifier 7, and using a belt divider 15, it is divided into sown activated sludge and wastewater ovate excess sludge. The regenerated and compacted activated sludge, stabilization and compaction of excess sludge occurs in the formed layer. After stabilization, the excess sludge flows by gravity through the sludge 14 into the storage tank 16, and the regenerated activated sludge enters by gravity into the mixer 4. Purified water, the space between the inclined partition 9 with the curved element 10 and the wall of the flotation cell clarifier 7 enters the thin-layer module 11, where the fine fraction is retained, which settles in the conical spot 8, and the clarified water is collected in the collector 12 and removed through pipe 13 to be discharged into the reservoir. In the event of a growth or decrease in the concentration of contaminants in the wastewater entering the treatment, the change in the quantity of the regenerated return flow to the mixing device 4

sludge per 1 m of waste liquid is produced by changing the level of the liquid in the floater equator 7 by measuring the consumption of the clarified bleed pipe 13

water.

Sequential vertical positioning in the upper part of the flotation cell of the modular splitter reduces the flow rate to

0 is the optimal value, which makes it possible to additionally use and distribute the bubbles released from the upstream stream of unreacted after the biological treatment in the short section

5 oxygen for aerating the floated layer and keeping it afloat on the surface of the liquid, as well as for regenerating and compacting the returnable sludge, stabilizing and compacting excess active sludge.

Installing above the surface of the liquid in the floated belt divider layer with an adjustable perimeter allows you to redistribute the volumes and processing time of the return activated sludge and excess sludge depending on the change in the concentration of contaminants in the waste water entering the treatment, while regenerated and compacted activated sludge with concentration 35-40 g / l allows for an order to reduce the volume of returnable activated sludge and thereby regulate its concentration in the treated wastewater, depending on the concentration of contaminant rd,

5 with practically no change in the total volume of the mixture in the installation, which allows a reduction in the volume of the plant for sewage treatment and sludge treatment.

The presence of an inclined partition in

0 a floater clarifier that divides it into a flotation cell and clarifier, and placement between its curved element, which is adjacent to the opposite side of the cone-shaped primer, and the wall of the flotation cell of the thin-layer module, allows the additional purification of wastewater from the fine fraction without chemical reagents and a number of devices (mixers, sand filters, adsorption towers). The inclined partition with a curved element allows in one volume to produce flotation sludge separation, compaction, regeneration, stabilization and clarification, which makes the installation compact and easy to maintain.

Regulation of the amount of clarified water discharged through the collector located in the upper part of the clarifier allows changing

Claims (2)

Claim 1. Installation for wastewater treatment and sludge treatment, containing a cylindrical recessed body with a coaxially located pipe in it, a flotation chamber; storage device, flotator-clarifier, oxygen-containing gas supply device, characterized in that * in order to reduce the volume of structures and save energy, it is equipped with a guide device installed in the upper part of the pipe in the form of a screw element with a step increasing from top to bottom and a mixing device for collecting and supplying the return sludge and wastewater for cleaning in the form of a cylinder with a truncated cone-shaped lower part, the flotation chamber is located in the upper part of the body and is equipped with a modular with a flow stream in the form of inclined coaxial plates, the filter clarifier is located coaxially around the flotation chamber and is made in the form of a cylinder with a conical pit for collecting and discharging sludge, with an inclined partition parallel to the pit dividing it into the flotator and clarifier, the clarifier is equipped with a thin-layer module, located in its lower part, and a collector for collecting and discharging clarified water, located in its upper part, the flotator is equipped with a sludge and a tape located in the upper part For example, the drive is located outside the flotator-clarifier, and the oxygen-containing gas supply device is made in the form of a water-jet nozzle with an elongated nozzle. 2. Installation according to claim 1, with the exception that it is equipped with a screw-shaped guide element installed in the lower part of the body with a step increasing from the bottom up.