SU1666146A1 - Radial separator - Google Patents

Abstract

The invention relates to a settling tank for separating suspensions and mixtures of two immiscible liquids and can be used in the chemical, pulp and paper, mining and processing and other industries. The purpose of the invention is to increase the efficiency of suspension separation by using centripetal forces and increasing the residence time of the jets. The radial sump includes a cylindrical body with a bottom, means for removing heavy and light components, means for introducing the initial mixture, made in the form of one or more manifolds with branches, and a diverting partition. The sump is equipped with blades that are concave in the direction of flow and installed under the outlets in the cavity between the casing and the diverting partition with the possibility of adjusting the angle of inclination, the width of the blades being from 1.5 to 2 diameters of the taps. To regulate the separation process, reflectors with flexible elements are installed on the housing under the lower end of the junction wall. The distance L between the lower end of the junction wall and the reflectors is determined from the relation L = (1.0 - 1.4) A, where A is the width of the gap between the housing and the diverting partition. 1 hp ff, 6 ill.

Description

The invention relates to a settling tank for separating suspensions and mixtures of two immiscible liquids and can be used in chemical, pulp and paper, mining and processing and other industries, in particular for separating sludge and floating mechanical impurities from polluted wastewater.

The purpose of the invention is to increase the separation efficiency by using centripetal forces and increasing the residence time of the jets, as well as regulating the separation process.

On fmg.1 shows a settling tank, a hydraulic section; figure 2 - the node in figure 1; in FIG. 3, view A in FIG. 1; figure 4 is a view 5 in figure 2; FIG. 5 shows the node H in FIG. figure 6 - node III in figure 2.

The sump contains a cylindrical body 1 with a conical bottom 2, a means for draining the clarified liquid, including a collection 3 of the clarified liquid with a pipe 4 leading it out and a foam retaining shell 5, a bridge 6 with the rotation mechanism 7 mounted on it and the lifting of the rowing device; sludge removal including strokes 8

with scrapers 9, with wet 10 with agitator 11 and sludge discharge pipe 12, co-axially installed in the housing a pressure regulating partition 13 and means for introducing the initial suspension, including two distribution manifolds 14 with outlets 15,

In order to increase the separation efficiency, the settling tank is equipped with concave blades 16, installed under the outlets 15 in the cavity between the housing 1 and the jet baffle 13. The blades 16 are adapted to manually or automatically adjust their angle of rotation (manual adjustment is shown). For this, each blade 16 is fixed on the axis 17 with a thread and a shank 18 with a seal 19. At the end of the shank 18, there is a sight 20 with a bolt and a nut. A bracket 21 is attached to the housing 1 with a radial groove 22 for manually setting the required angle of inclination of the blades 16 .:

To regulate the separation process, reflectors 23 are installed on the housing 1 under the lower end of the jet-distribution partition 13, which are also installed with the possibility of adjusting their angle of rotation. To rotate the reflector 23, the rod 26 is threaded via stops 24 on the axles 25. On the housing 1, a rod 26 is installed under each reflector 23. The outer end of the rod 26 has a seal in the sleeve 27. At the end of the rod 26 is fixedly fixed flywheel 28.

To eliminate the overflow of the suspension on the edges of the reflectors 23, in the places of their interfacing with each other and with the wall of the housing 1, an edging is made of an elastic material, for example, elastic rubber. The width of the blades 16 is 1.5–2 diameters of the taps 15. The distance I between the bottom end of the equalizing partition 13 and the reflectors 23 is determined from the ratio

1 (1.0-1.4) a,

where a is the width of the gap between housing 1 and the reinforcement partition 13.

The radial sump works as follows.

The initial suspension along two distribution headers 14 enters a series of taps 15, distributed around the perimeter of the housing 1. The slurry flows emanating from the taps 15 are directed to the concave blades 16. At the same time, due to the inclination of the latter by an angle ai (Fig. 3) the flows are diverted and acquire a circular (tangential) direction with respect to the housing 1, moving along spiral paths in the cavity between the wall of the housing 1 and the diverting partition 13. Then the inlet flows fall on the reflectors 23 set at an angle θ / 3 (Fig. five). The deflected spiral streams of the split suspension enter the separation chamber of the housing 1 and move towards the collector 3 of the clarified liquid.

During the spiral movement of the suspension, particles mostly move to the center of the sump body and simultaneously precipitate them onto the bottom 2. With the help of paddles 8 with scrapers 9 of the scraper mechanism, the solid phase of the sediment moves from the periphery of the bottom 2 to its center and gets into at 10, wherefrom The agitator 11 is discharged through the discharge port 12 to the outside. The clarified liquid, the passage under the foam squeeze shell 5, is collected in collector 3, from where it is discharged through pipe 4 from the apparatus.

If for some reason the solids content in the clarified stream increases, for example due to an increase in inlet capacity or an increase in the concentration of the suspension at the inlet, then using the sights 20 through the axes 17, the concave blades 16 are rotated ctz-y. At the same time using the flywheels 28 through the rods 26 rotate the reflectors 23 at an angle / 1 / Behind (the largest angle). At the same time, by increasing the flow angles to the concave blades 16 and the reflectors 23, the tangential component of the slurry flows in the separation chamber of the body 1 and the centripetal force increase. Increasing the centripetal force promotes an increase in the release of solid particles into the sediment, which reduces their entrainment with the clarified liquid.

If for some reason the solids content in the clarified liquid decreases, for example due to a decrease in inlet capacity or a decrease in suspension concentration at the inlet, the angles of rotation of the concave blades 16 and reflectors 23 are reduced by the indicated means. At the same time, by reducing the flow angles to the concave blades 16 and the reflectors 23, the tangential component of the slurry flows in the separation chamber of the housing 1 and the centripetal force are reduced. A decrease in the latter in this case helps to reduce the release of solid particles in

sediment, which increases their ash with a clarified liquid.

Thus, thanks to the adjustable rotation of the blades 16 and the reflectors 23, it becomes possible to control the separation efficiency in the sump in a certain range.

At present, radial clarifiers are used with a peripheral feed of the initial distillate suspension through several pipelines in the side wall and without a baffle. The capacity of the initial distillate suspension is 420 m3 / h. The concentration of solid particles in clarified water is 0.130– 0.140 xg / m3.

The proposed radial sump allows the same performance to reduce the concentration of solid particles B of the clarified liquid to 0.08-0.1 kg / m / By reducing the removal of the solid phase with the clarified liquid, the quality of drinking water is improved.

Claims (2)

1. A radial settling tank comprising a cylindrical body with a bottom, a cylindrical jet-guiding coaxially mounted in the body, means for introducing the initial mixture, made five 0 five in the form of one or several collectors with branches, and a means for removing heavy and light components, in order to increase separation efficiency by using centripetal forces and increasing the residence time It is provided with blades that are concave in the direction of flow and installed under the collector outlets in the cavity between the casing and the diverting partition with the possibility of adjusting the angle of inclination, the width of the blades being 1.5-2 times the diameter of the taps. 2. A settling tank according to claim 1, which means that, in order to regulate the separation process, it is equipped with reflectors with flexible elements mounted on the housing under the lower end of the diverting partition with the possibility of angle of rotation, and the distance between the lower end of the jet distributor partition and the reflectors I is determined from the ratio | (1.0-1.4) a, where a is the width of the gap between the KOPPVCOM diverting partition. Buds Editor M.Petrova Compiled by T. Ledneva Tehred M. Morgental FIG. 6 Proofreader I. Muska