SU1174389A1 - Dewatering apparatus - Google Patents

Abstract

1. A DEVICE FOR DRAINING, comprising a housing with a conical bottom, to which is attached a branch pipe for discharging thickened sludge, a vertical filtering tubular element connected by a lower end to a pipeline for draining water through a tee with a locking device, and a pipeline for introducing sludge, such as that, in order to simplify the design and reduce operating costs by providing self-regeneration of the filter, the sludge line is connected to the tee and the vertical one: the tubular element is made with an open m upper end. 2. A device according to claim 1, characterized in that it is provided with a conical baffle mounted above the open end of the vertical filtering tubular element. 3. The device according to PP.1 and 2, o t (L is ensured by the fact that it is supplied with a guide cap attached to the pipe from the discharge of the thickened sludge and a conical valve placed in it. 4. The device according to PP.1 g 3, characterized by that the rotating filter tube tubular ele4 CO 00 ment is executed in the form of a perforated tube with a grid placed on it;

Description

The invention relates to the dehydration of organic and inorganic slurry suspensions). The purpose of the invention is to simplify the design of the device and reduce operating costs by self-regenerating the filter. The drawing shows a dewatering device, a longitudinal section. The device comprises a housing 1 with a KO bottom 2, a vertical filter element in the form of a perforated pipe 3 with an open upper end A mesh on the outer surface, mounted above the open end 4 of the filter element conical baffle 5 , forming a tee inlet pipe 6 of the initial suspension with valve 7 and pipe 8, drainage filtrate, with valve 9, branch pipe 10 for withdrawal of condensed sediment with a conical valve 11, are placed in a guide tube Packing 12. The device is equipped with observation windows 13. The dewatering device operates as follows. The feed through the conduit 6 slurry rises up through the perforated tube 3, leaves it, overflows through the upper end 4, and fills the housing I. As a result of the gravitational forces, the sediment will settle and condense on the bottom 2 of the device. The compaction process is visible through the observation windows 13. The separated liquid as a result of sedimentation and compaction of the sediment through the mesh holes of the perforated pipe 3 is filtered and withdrawn by pipeline 8 after opening the valve 9. Condensed sediment is withdrawn through the nozzle 10 through the guide cap 12 into the vehicle or conveyor belt storage hopper. After filtering, the filter is cleaned when the device is filled with the initial suspension through a perforated vertical pipe 2 with a mesh in which a countercurrent occurs, resulting in the precipitate separating from the mesh, i.e. The filter self-regenerates, while the slurry flows down the pipe downstream of the chipper. 5, reducing the remaining particles on the filter surface. Thus, the perforated vertical pipe 3 with the screen is cleaned, and it becomes prepared for subsequent filtration. The proposed design of the device improves the efficiency of dehydration. For example, the moisture content of the compacted sludge after such dewatering is about 90%. The device is simple in construction, requires less operating costs, the process can be automated.

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Claims (4)

1. DEHYDRATION DEHYDRATOR, comprising a body with a conical bottom to which a condensed sludge outlet pipe is connected, a vertical filtering tubular element connected to the lower end with a pipe to drain water through a tee with a locking device, and a pipe for introducing sludge, which is characterized by that, in order to simplify the design and reduce operating costs by ensuring self-regeneration of the filter, the pipeline for introducing sludge is connected to a tee, and the vertical 'tubular element is made with an open top it end. 2. The device according to claim 1, which is connected with the fact that it is equipped with a conical chipper installed above the open end of the vertical filtering tubular element. § 3. The device according to claims 1 and 2, characterized in that it is equipped with a guide cap attached to the condensed sludge discharge pipe and a conical valve placed in it. 4. The device according to claims 1 to 3, characterized in that the vertical filtering tubular element is made in the form of a perforated pipe with a mesh placed on it. SU 117438 "o>