SU1623693A1 - Radial thickener - Google Patents

Abstract

The invention relates to the separation of suspensions under the action of gravity and can & i used in the chemical industry in the production of mineral fertilizers and in other industries. The purpose of the invention is to increase the efficiency of separation of the suspension. The device for sludge removal is made in the form of a hydrocycle 8 mounted on the hollow shaft 9 of the drive 10. The shaft 9 is simultaneously a drain pipe and provided with windows 11 for draining the clarified liquid. The tangential inlet pipes 15 of the hydrocyclone 8 are connected to the outlet pipes 16 of the hydrostroje Pumps 17 When a centrifugal pump 27 delivers clarified liquid under pressure to the nozzles 19 of the pumps 17, a vacuum is created in their cavities, under the action of which sediment settled on the bottom 2 is sucked into the working cavity of the pump 17, diluted clarified liquid and tangential nozzles 15 enters the hydrocyclone 8 cavity. Under the action of centrifugal forces, the condensed phase is pressed to the walls of the hydrocyclone 8 and through when wet 3 is withdrawn from the sump, and the clarified liquid is withdrawn from the half of the hydrocyclone through the cavity of the shaft 9 and through the window 11 into the bottom part of body 1 thickener. 4 silt o. yu CJ o yu so

Description

The invention relates to the separation of suspensions under the action of gravity and can be used in the chemical industry, in the production of mineral fertilizers and in other industries.

The purpose of the invention is to increase the efficiency of the suspension separation process.

FIG. 1 shows a radial thickener, general view, section; FIG. 2 shows a section A-A in FIG. one; on fig.Z - section bb in fig. one ; figure 4 - node I in figure 1.

The radial thickener contains a cylindrical body 1 with a conical bottom 2 and with a mcom 3, a power supply device consisting of a central tank 4 and a supply pipe 5, a device for removal of the clarified suspension, made in the form of a drainage channel 6 installed in the upper part of the body 1 with a branch pipe 7 removal device, and a device for removal of sediment, made in the form of a hydrocyclone 8. The hydrocyclone 8 is coaxially mounted on the free end of the hollow shaft 9 of the actuator 10. The free end of the shaft 9 is recessed into the cavity of the hydraulic cylinder 8 and performs the function Foot tube. For removal of the clarified liquid in the upper part of the shaft 9, holes 11 are made 11. The conical part 12 of the hydrocyclone 8 is buried in the cavity around the mouth 3, the nozzle 13 of the discharge of the thickened phase is blocked by a shutter 14. The hydrocyclone 8 has several evenly spaced tangential inlets 15 along its perimeter, which connected to the outlet nozzles 16 of the hydro-jet pumps 17 installed at different distances from the hydrocyclone axis 8, but so that the inlets of their suction nozzles 18 are blocked in the radial direction rhnost conical bottom 2.

The active nozzles 19 of the hydro-jet pumps 17 are connected via radial pipes 20 to a pressure chamber 21. communicating via windows 22 with a self-sealing chamber 32. On the roof 24 of the housing 1 a centrifugal pump 25 is installed, the suction pipe 26 of which is recessed into the cavity of the housing 1 in the clarified part of the liquid, and the pressure pipe 27 is connected to a self-sealing chamber 23 fixed by means of racks 28 on the central glass 4 and sealed relative to the pressure chamber 21 by means of elastic sleeves 29. For even distribution similar suspension in the thickener cavity under the central glass 4 is mounted a conical hood 30.

Radial thickener works as follows.

The initial suspension is fed through the supply pipe 5 to the central cup 4, from where it is evenly distributed, reflecting from the umbrella 30 in the working cavity of the cylindrical body 1. Solid particles under the action of gravity are deposited on the conical bottom 2, the clarified liquid overflows through the discharge chute 6. Periodically, as sediment accumulates on the conical bottom 2,

5 turn on the rotational drive 10 of the central shaft 9 and at the same time turn on the centrifugal pump 25, which sucks the clarified liquid through the pipe 26 and, under pressure, pumps it through the pipe 27 into the cavity of the self-sealing chamber 23. From there, through the holes 22, the liquid is pumped into the annular pressure chamber 21 and further through radial pipes 20 to the nozzles 19 hydro jet

5 pumps 17 During operation, a vacuum arises in the suction nozzles - sockets 18; a suction sediment from the bottom 2 of the thickener into the working cavity of the hydro-jet pump 17. Sediment in the pumps cavity

0 17 is diluted with a clarified liquid and under a high velocity pressure through the tangential nozzles 15 is injected into the working cavity of a hydrocyclone 8. Here the sludge is compacted and in a dense mass through

5 the conical part 12, at 3, the nozzle 13 of the outlet of the condensed phase and the open gate 14 is discharged from the apparatus

The liquid recovered in hydrocyclone 8 is directed upwardly to the discharge

The 0 nozzle is a hollow shaft 9 and through the holes 11 it is poured into the upper part of the housing 1, where it is combined with the clarified liquid. The hydraulic jet pumps 17 are located at different distances from the axis of the hydro cyclone 8

5 in the radial direction and in such a way that with a full rotation around the axis of the shaft 9, they clear the entire area of the conical bottom 2 of the sludge. After completing one full turn, the shaft 9 of the rotational drive 10 and the centrifugal pump 25 turn off and the shutter 14

0 overlap and the radial thickener transitions to the sediment accumulation mode on the conical bottom 2. As the sediment accumulates, the pump 25 and the actuator 10 are turned on again, the cycle repeats.

5 Due to the implementation of the device for removal of the precipitate in the form of a hydrocyclone, additional separation of the liquid phase from the precipitate is increased, the degree of dehydration due to centrifugal separation of the condensed phase increases. Making the drive shaft hollow and deepening it into the hydrocyclone cavity allows using it as a hydrocyclone drain pipe Due to embedding the conical part of the hydrocyclone into the cavity is used as the sand nozzle of the hydrocyclone, which prevents pits liquid phase.

Having tangential inlets of the hydrocyclone connected to the hydro-jet pumps evenly around the perimeter of the hydro-cyclone, as well as installing pumps at different distances from the hydrocyclone axis, it is possible to balance and balance the design, which increases its operational reliability. The connection of the active nozzles of the hydro-jet pumps with the clarified supply means the liquid allows to use the clarified phase to collect the precipitate, those that circulate the liquid inside the thickener, which also increases the efficiency of the section Elie Suspension

The execution of the supply means under the pressure of the clarified liquid in the form of an annular chamber installed above the hydrocyclone allows its use as a collector that does not disturb the hydrodynamic situation in the apparatus and does not interfere with the free separation of the suspension

Claims (1)

Invention Formula A radial thickener containing a cylindrical housing with a powder supply device in the form of a glass with a feed pipe, a device for draining a clarified suspension and a device for draining sludge, coupled with a rotating drive, characterized in that, in order to increase the efficiency of the separation process, it is equipped with a pump with pressure and suction piping, pressure chamber with holes, and the device for sludge drainage is made in the form of a hydrocyclone, coaxially mounted on the free end of the drive shaft and equipped with gentsialnymi inlets, radial conduits clarified liquid aspirator comprising active pressure nozzle, outlet and suction nozzles, the drive shaft is buried in the hydrocyclone cavity and provided with openings for draining the clarified liquid, the conical part of the hydrocyclone is buried in the extraction cavity, and the tangential inlet nozzles of the hydrocyclone are evenly spaced around the hydrocyclone perimeter and connected to the outlet nozzles of the hydrojet pumps installed; different distances from the hydrocyclone axis so that the inlets of their suction nozzles overlap in the radial direction of the surface of the conical bottom Active Pressure nozzle the hydro jet pumps are connected to the radial lines of the clarified liquid, and the pressure chamber is installed above the hydro cyclone and is connected to the pressure pipe. -BUT Fig 3 FIG 4