SU1659084A2 - Apparatus for purifying effluents - Google Patents

Abstract

The invention relates to the field of wastewater treatment and can be used to separate undissolved medium and coarse mineral and organic pollutants present in industrial and domestic wastewater. The purpose of the invention is to improve the performance of the device. The device includes a sloped perforated drum in the shape of a truncated cone, an actuator, feed mixture supply units and a device. The invention relates to wastewater treatment and can be used to separate undissolved medium and coarse mineral and organic contaminants present in industrial and domestic wastewater. The purpose of the invention is to improve the performance of the device. Figure 1 shows the device, a longitudinal section; Fig. 2 shows the distribution element and the moment of closing the supply line with a plug; on fig.Z - distribution element in movod purified liquid and trapped materials. The unit for supplying the initial mixture is made in the form of a supply pipeline placed on the side of the smaller base of the drum. The supply unit is equipped with a distribution element, made in the form of a cylindrical plug rigidly interconnected and a reflective conical shield. The plug is hinged on the feed-pipe, and the top of the reflective conical shield is offset relative to the plane of the plug facing the end of the feed pipe for a distance of 0.5-0.75 of its diameter. In addition, the diameter of the base of the plug corresponds to the diameter of the supply pipeline, the diameter of the base of the reflective conical shield is not less than the diameter of the supply pipeline, and its cone angle is selected from the ratio / 104-2, where fi, respectively, the angles of the cone of the reflective conical shield and drum, degrees 1 hp f-ly, 4 ill. the flow of the estimated flow rate, section; figure 4 - distribution element at the time of filing the flow rate is less than the calculated. A wastewater treatment device includes a rotatably mounted perforated drum 1 having a frusto-conical shape and located in bath 2. The cone angle of drum 1 is 6-12 °. The drum is installed so that its bottom forming has a slope in the direction of the bunker 3. On the side of the larger base 4 of the drum, the supply pipe 5 is placed. The smaller Os of about 00 4 ka

Description

The drum base 6 is bordered by a hopper 3. In the perforated drum surface, near the smaller base 6, there is a series of trapezoid-shaped outlet openings 7 for unloading of the crumpled (large) undissolved impurities. The holes 7 are blocked by perforated flaps 8. The drum rests on the rollers 9. The bath 2 is equipped with movable sides 10, which regulate the aerodynamic conditions of air entering the drum through the opening 11.

The upper part of the bunker 3 is a cyclone designed to separate relatively small and medium-sized impurities from the air that is sucked through the duct 12. The lower part of the bunker consists of two compartments: to receive contaminants and to catch impurities coming from the air . A discharge pipe 13 is installed in the lower part of the bath 2.

The device is equipped with a distribution element 14, made in the form of a cylindrical plug 15 and a reflective conical shield 16 rigidly interconnected. A rigid connection can be made, for example, by means of an arcuate narrow strip 17 with pointed edges that prevent them from being contaminated during operation. . The plug is fixed on the hinge 18 installed in the upper part of the supply pipeline 5.

The reflective conical shield 16 is set relative to the cap 15 so that its vertex is offset relative to its plane (distance a nafig.2). In addition, the apex of the conical reflective shield 16 is removed from the plane of the base 19 of the plug 15, which faces the end of the supply pipe 5, at a distance of 0.5-0.75 of the diameter of the latter (distance b in Fig. 2). The diameter of the base of the reflective conical shield 16 is taken to be not less than the diameter of the supply pipe 5 to prevent jets of flow from entering the space behind the reflective conical shield, and its cone angle is chosen from the ratio

Ј 104-2 / Zb,

where /S./fe, respectively, the angles of convergence of the reflective conical shield and drum, hail.

This dependence of ft on /%, fully scientifically tested during testing of a prototype device, allows the flow to be optimally distributed over the surface of the drum. With the specified ratio of the angles of the cone, the reflected jets of the multicomponent mixture flow to the filtering surface of the drum at an angle of 80-90 °, which contributes to an increase in the throughput of the perforated surface.

The device works as follows.

Sewage fluid containing undissolved impurities is supplied through conduit 5 to the inside of the perforated rotary drum 1. The wastewater flow of a certain flow affects the cap 15 of the distribution element 14, as a result of which it turns, occupying a certain position. The effluent jets are evenly reflected from the conical surface of the shield 16 and arrive at the inner surface of the drum at an angle close to 90 °, due to "effective filtration of the fluid around the entire inner perimeter of the drum in the zone of falling of the reflected jets and retention of undissolved impurities.

The fall of the jets to the surface of the drum 1 at an angle close to 90 ° is achieved by a certain ratio of the angles of the cone of the drum and the conical shield 16, which is optimal for this design. Depending on the distance b, either the coaxiality of the supply pipe 5 and the reflective conical shield 16 (b is equal to 0.5 of the diameter of the supply pipeline) or parallel to their axes (0.75 b 0.5 of the diameter of the supply pipeline) is ensured. The choice of b depends on the nature of the effluent and, above all, on the composition of components that may influence the flow trajectory beyond the end of the supply pipeline 5. Thus, in a stream containing a significant amount of coarse and heavy impurities, the distance b is desirable to be increased to 0.75 diameters of the supply pipeline, because otherwise (when b is 0.5 of the diameter of the supply pipeline) if the trajectory is disturbed (the falling curves of the particles are steeper), the reflection from the shield will be less uniform,

Sewage liquid flows into the bath 2 and is discharged through conduit 13. And the undissolved impurities are removed from the inner surface of the drum 1 by sucking air through the cyclone B the drum 1 through the perforation opening only in that part of the side surface that coincides with the opening 11 of the bath between the sides 10 The impurities delayed by perforations due to the rotation of the drum rise to its top.

Claims (2)

part, for example, from point B to point C. When the opening 11 is reached, impurities are removed from the perforation by air flow and removed from the drum in direction D. The upper and larger contaminants cannot be removed from the drum by air. When the drum rotates, they are displaced by a considerable distance from the larger 4 to the lower 6th base of the drum, for example, from point B to point E and on. Upon reaching the outlet openings 7, the crumpled impurities fall on one of the perforated shutters 8, which, under the influence of the weight of the contaminants, opens and the impurities fall into one of the compartments of the hopper 3. Then the shutters are closed by a spring (not shown). Claims 1. Device for cleaning waste fluid according to author. Ms 1197693, characterized by the fact that, in order to increase performance, it is equipped with a distribution element made in the form of a cylindrical plug and a reflective conical shield rigidly interconnected, the plug being hinged on the supply pipeline, and the top of the reflective conical shield is offset from the plane facing the end of the supply pipeline 0.5-0.75 of its diameter. 2. The device according to claim 1. characterized in that the base diameter of the reflective conical shield is not less than the diameter of the supply pipe, and its cone angle is chosen from the ratio / 5 104-2 /%. where /. / ba - respectively, the angles of the cone of the reflective conical shield and drum, hail. # Yu eleven Jl ° j ° :: fe.:. :: / fe eight Schi g R 18 15 / sixteen Fy Editor I. Casard Compiled by A.Tazov Tehred M. Morgenthal Fuzz Proofreader N.Korol