SU1690810A1 - Plate-type thickener - Google Patents

Abstract

The invention relates to devices for separating suspensions and sewage, the liquid phase of which consists of water and a relatively small amount of organic phases, by separating solid particles from liquid under the action of gravity in thin inclined layers and can be used in hydrometallurgy, mining and chemical industries and also in the practice of wastewater treatment. The aim of the invention is to increase the efficiency of the process when separating a three-phase low suspension. The invention relates to a device for separating suspensions and waste water, the liquid phase of which consists of an aqueous and relatively small amount of organic phases by separating solid particles from liquid under the force of gravity in thin and can be used in hydrometallurgy, mining and chemical industries, as well as in wastewater treatment. content of the organic phase. The thickener contains a housing inside which packages of inclined plates with side walls perforated in the upper part are alternately arranged, and an initial suspension inlet chamber with inclined partitions and nozzles installed in their upper part, a conical bunker for collecting the condensed product, a drain chute for draining the clarified liquid and pipes for feeding and discharging condensed product. An overflow pocket with a baffle and nozzles for draining the aqueous and organic phases is placed at the housing wall opposite to the feed inlet pipe. Nozzles with valves for supplying compressed air are installed in the middle of the inclined partitions of the chambers entering the initial suspension. The upper part of the wall separating the body and the overflow pocket is located below the upper edges of the side walls of the packages of inclined plates and above the perforated part of the side walls. The nozzles installed in the upper part of the chambers entering the initial suspension are equipped with valves and are connected by pipes with an overflow pocket. 5 il. The aim of the invention is to increase the efficiency of the process when separating a three-phase suspension with a low content of organic phase. FIG. 1 shows a plate thickener, isometry; FIG. 2 - the same, top view; FIG. 3 shows section A-A in FIG. 2; FIG. 4 shows a section BB in FIG. 2; FIG. 5 shows a section B-B in FIG. 2. The lamellar thickener contains a housing 1 with pockets placed inside it (L o o che o o o o

Description

Red packages of inclined plates 2 with side walls 3, chambers 4 introducing initial slurry, conical hopper 5 for collecting condensed product, drain chute 6 for draining the clarified liquid, pipes 7-11 for feeding in, draining for draining the aqueous phase, for removal of the organic phase, for the withdrawal of condensed sediment, respectively. In the upper part of the side walls 3 there are holes 12 located at the same level opposite the channel formed by two adjacent inclined plates. The chamber 4 has inclined partitions 13 attached to the side walls 3 and provided with nozzles 14 with valves 15 and pipes 16. In the middle part of the inclined partitions 13 there are nozzles 17 with valves 18 connected to the compressed air system. To the wall 19 of the housing 1, opposite the nozzle 7, an overflow pocket 20 is attached with a bump 21 and nozzles 9 and 10 for draining the aqueous phase and draining the organic phase. The upper edge of the wall 19 is located below the upper edges of the side walls 3 and above the holes 12. The pipes 16 are connected to an overflow pocket 20. The bump stops 22 are installed below the level edges of the side walls 3. The body 1 of the plate thickener has drain chutes 23, one of which has a sensor 24 level Overflow pocket 20 provided with a measuring glass 25.

Plate thickener works as follows.

The initial suspension (wastewater) containing the solid, aqueous and organic phases is fed under pressure through the nozzle 7 into the chambers 4 of the initial suspension. In them, the suspension changes the horizontal direction to the downstream, extinguishes its energy, hits the screen bumpers 22 and then goes to the interplate channels of the packages of inclined plates 2. When the suspension enters the chambers 4, air and the most coarsely dispersed organic phase droplets are collected, which are collected in the upper parts of chambers 4 formed by inclined partitions 13 and side walls 3 of chambers 4. In inclined channels formed by plates 2, solid particles are separated from the liquid phase under the influence of grav , Gravitational forces. The solid particles are deposited in the packages of the inclined plates 2, slide down from them and enter the conical bunker 5. in which the sedimentation thickens. The thickened sediment is discharged from the hopper 5 through the pipe 11. Gradually separating from the solid particles a liquid consisting of

the aqueous and organic phases rises through the channels. Under conditions of relatively quiet laminar movement in the channels, the release from the aqueous phase occurs.

fine droplets of an organic liquid that rises as a thin film and collects on the surface of the apparatus. The clarified aqueous phase rises through the channels and through the holes 12 side walls 3 individually from each channel enters the drain chute 23, then into the general drain chute 6 and out through the nozzle 8 from the apparatus. Periodically, at the command of the burden relay, the valves 18 open and from the external piping system the compressed air enters the cavity of the chamber 4. Under the action of the compressed air, the level of suspension in the chamber 4 is lowered. When lowering the level of suspension

0 to the lower end of the sensor 24, a command is given to close the valves 18 and open the valves 15. Due to the difference, the levels of the suspension columns in the communicating chambers 4 and sedimentation.

5 space spaces in which the precipitation plates are installed, the level of suspension almost instantly rises and from the cavity of chamber 4 a predominantly organic phase through pipes 14, valves 15 and pipes 16 is ejected into overflow pocket 20 onto baffle 21. When the level of suspension decreases, chamber 4 occurs simultaneous increase in fluid level

5 to a height, the value of which is determined by the ratio of the areas of the chambers 4 and the area of the drainage mirror of the device. Due to the superimposed short pulse of compressed air,

0 the apparatus rises, and the upper layer, which is a predominantly organic phase of the liquid, is drained through the upper edge of the rear wall 19 of the housing 1 in the overflow pocket 20 onto

5, a baffle 21 installed therein. In an overflow pocket 20, a gravitational separation of the organic and aqueous phases takes place, the boundary between which is visually observed through a measuring glass 25. Water

0, the phase is withdrawn from the bottom of the overflow pocket 20 through nozzle 9, and the organic phase is removed through nozzle 10. The magnitude of the compressed air pulse and the degree of opening of the valves 15 and 18 regulate 5 seconds, which in turn allows the flow of the organic phase to be regulated from the surface of the mirror discharging the apparatus and the upper part of chambers 4. In the event of a possible entry of chambers 4 from the upper cavity together with the organic phase, also

and suspended water, the aqueous phase can be recycled.

Depending on the content of the organic phase in the initial suspension, it is possible to regulate with the help of a time relay the valve response frequency and, accordingly, the separation efficiency of the aqueous and organic phases.

The economic effect of the invention is added by reducing the cost of equipment and reducing the amount of production space.

Claims (1)

Invention Formula A lamellar thickener, comprising a housing inside which packages of inclined plates with side walls perforated in the upper part are placed alternately, and chambers for introducing the initial suspension with inclined partitions and branch pipes installed in their upper part, a conical bunker for collecting the condensed product, a drain chute for withdrawal the clarified liquid and the supply and discharge nozzles of the drain and the condensed product, characterized in that, in order to increase the process efficiency in separating the three-phase suspension from low m content of the organic phase, it is provided in the housing wall disposed opposite the input supply pipe, an overflow pocket with baffle and nozzles for discharging water and organic phases, branch pipes with valves for supplying compressed air installed in the middle part of the inclined partitions of the chambers entering the initial suspension, the upper edge of the wall separating the body and the overflow pocket located below the upper edges of the side walls of the packages of the inclined plates and above the perforated part of the side walls, and the pipes installed at the top of the chambers input the original suspension, equipped with valves and pipes connected to the overflow pocket. Original suspension The condensed product of FIG. one Compressed air Organic phase Water phase BUT , FIG. 2 Aa Urobenia suspension eight eleven Fig 3 FIG 4 Compressed air $ FIG. five 22