RU2419588C1 - Effluents treatment device - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to effluents treatment and may be used in whatever industry that requires effluents treatment. Proposed device comprises closed housing. Vertical hollow shaft is passed through face walls of said housing. Shaft lower section is provided with through lateral bores made nearby the housing face wall bottom. Housing is fitted on said hollow shaft to run in opposite direction relative to it driven by separated drive unit. Housing lateral wall is provided with through discharge bores shut off by circular gate fitted on the housing. Elements are arranged inside the housing and on hollow shaft inner surface to generate magnetic field, while housing inner lateral surface is provided with mechanism to transfer solid components toward reactor housing outlet zone.

EFFECT: simplified design, higher efficiency and quality.

3 cl, 1 dwg

Description

The invention relates to a device for treating wastewater (fecal effluent) and can be used in civil and public construction and various industries where wastewater treatment is required.

A known electrolyzer for wastewater treatment, comprising a casing with electrodes and nozzles for supplying a process medium and discharging the cleaned medium and contaminants, the casing being circular and equipped with blades and an annular tray placed on the outer wall of the casing, and the blades are mounted on the casing wall, the bottom of the case is made with a slope in the longitudinal direction with a slope towards the inner wall of the case, in the bottom of the tray - with a slope in the longitudinal direction (SU No. 882943, class C02F 1/46, 10.27.77)

The closest technical solution is a device for the magnetic treatment of liquid and gaseous media, including a housing, inlet and outlet pipes and a magnetic system made in the form of a set of ferrite magnets made in the form of bars with a segment cross-section, magnetized perpendicular to the cylindrical forming surfaces of the bars and alternating alternately the length and are installed in the housing relative to each other by alternately convex and concave surfaces (SU 882946, C02F 1/48, dated 16.08.79).

The disadvantage of this device is that it has an unnecessarily complex design and insufficiently effective processing quality.

The technical task of this invention is to simplify the design, increase the efficiency and quality of processing. The technical problem is ensured by the fact that the wastewater treatment device comprises a reactor with a closed volumetric casing, through the tertiary walls of which a hollow vertical shaft is passed, having through lateral holes in the lower part located in close proximity to the bottom of the end wall of the reactor casing, the reactor casing being installed on a hollow ox with the possibility of oppositely directed rotation relative to the latter using an individual drive, and the side wall of the reactor vessel is made with through exhaust openings blocked during operation by an annular gate mounted on the reactor vessel, while magnetic field elements are installed inside the reactor vessel and on the external surface of the hollow shaft, and the internal side surface of the vessel is equipped with a mechanism for moving solid components into the exit zone from the reactor vessel, moreover, the upper end wall of the housing has through holes for the output of the liquid component, and the hollow shaft is equipped with a shut-off valve driven by a rod located in shaft cavity.

The invention is illustrated in the drawing, which shows a General view of the device.

The wastewater treatment device comprises a reactor 1, a closed volumetric casing 2 with end walls 3, a hollow vertical shaft 4, passed through the end walls and having through side openings 5 located in the immediate vicinity of the bottom 6 of the end wall of the reactor vessel. The reactor vessel is mounted on the hollow shaft 4 with the possibility of oppositely directed rotation by means of an individual drive 7, and the side wall 8 of the reactor vessel is made with through exhaust openings 9, which are blocked during operation by an annular gate 10 mounted on the reactor vessel. Inside the reactor vessel and on the outer surface of the hollow shaft, elements for creating a magnetic field 11-12 are installed. The inner side surface 13 of the vessel is equipped with a mechanism for moving 14 solid components into the exit zone from the reactor vessel. The upper end wall of the housing has through holes 15 for outputting the liquid component. The hollow vertical shaft 4 is equipped with a shut-off valve 16 driven by a rod 17 located in the cavity of the shaft.

The operation of the device is as follows.

The hollow shaft 4 enters by gravity or forcedly solid-liquid mass (hereinafter referred to as TJ mass), fecal effluents, wastewater, etc., through the hole 5 then move into the reactor vessel 2. TJ mass enters the hollow shaft 4 when rotating it in the advance mode. Having entered the reactor vessel, which rotates polarly with respect to the hollow shaft, the mass is distributed along the bottom of the reactor vessel, reacting in a bipolar magnetic zone. As the TJ reactor fills with mass and passes from the laminar to turbulent state, the TJ mass is subjected to destructive effects at high pressure. The destruction of TJ mass occurs under the influence of a dynamic load in the "Boiling" mode, i.e. coming into the bubble state, the bubbles begin to burst, while the solid particles acquire a rapid flight. Aerodynamic action causes the liquid mass in countercurrent to inertial forces to move to the epicenter at the exit from the reactor, while the solid particles replenish the concentrated particles in the inner cavity of the reactor. Without disrupting the technological process, after the liquid phase exits through the hole 15, the solid residue is forcibly supplied by the in-vehicle vehicle (moving and feeding mechanism 14) through the hole 9 from the reactor.

Claims (3)

1. A device for treating wastewater, characterized in that it comprises a reactor with a closed volumetric casing, through the end walls of which a hollow vertical shaft is passed, having in the lower part through lateral openings located in close proximity to the bottom of the end wall of the reactor casing, and the casing the reactor is mounted on a hollow shaft with the possibility of oppositely directed rotation relative to the latter using an individual drive, and the side wall of the reactor vessel is made with through exhaust openings that are blocked during operation by an annular gate mounted on the reactor vessel, while magnetic field elements are installed inside the reactor vessel and on the external surface of the hollow shaft, and the internal side surface of the vessel is equipped with a mechanism for moving solid components into the exit zone of the reactor vessel. 2. The device according to claim 1, characterized in that the upper end wall of the housing has through holes for outputting the liquid component. 3. The device according to claim 1, characterized in that the hollow shaft is equipped with a shut-off valve driven by a rod located in the cavity of the shaft.

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