RU2060975C1 - Aggregate for sediment dewatering - Google Patents

Abstract

FIELD: sewage sediment dewatering aggregates. SUBSTANCE: sediment feeding pipeline of aggregate is connected with sealing member tangentially. Tray for centrifuged effluent collection is located in center of sealing member. Lower conical part of sealing member is connected with cylindrical body of auger press, in which horizontal auger and perforated cylinder are located. Auger press body using pipelines of pressed out water is linked with sealing member. EFFECT: improved design. 2 dwg

Description

 The invention relates to sanitary engineering and can be used for dewatering sewage sludge.

 A number of known devices for sludge dewatering [1] such as centrifuges, vacuum filters, filter presses, etc.

Closest to the technical nature of the invention is a plant for sludge dewatering, including pipelines for the supply of sludge and drainage centrate, a seal with an agitator, peripherally located trays for collecting centrate, a vertically located screw in its lower part, a screw press with a cylindrical body, horizontal screw, perforated cylinder and pressure control valve [2]
The technical result of the invention is to improve the quality of the centrate.

 In FIG. 1 shows a plant for sludge dewatering; in FIG. 2 same, top view.

 The installation includes a seal 1 with a screw 2 vertically located in its lower part 2. The sludge supply pipe 3 is connected tangentially to the seal 1, and the tray 4 for collecting the centrate is located in its central part. The centrate discharge pipe 5 is connected to the tray 4. The lower conical part of the seal 1 is connected to the cylindrical body 6 of the screw press 7, in which the horizontal screw 8 and the perforated cylinder 9 are located. The screw press 7 contains a pressure control valve 10. The housing 6 of the screw press 7 by means of a pipe 11 squeezing water is connected to the seal 1.

 Installation for sludge dewatering works as follows.

 Through the pipeline 3 supply of sediment, the latter is fed into the seal 1. Due to the fact that the pipeline is tangent to the seal housing, a rotational (circular) movement of the sediment is created. Under the action of centrifugal forces, heavier sediment particles rush to the periphery and slide along the walls of the seal 1 into its lower part. In the lower conical part of the seal 1, a screw 2 is vertically located, which thickens the compacted sediment by rotational movement and feeds it into the cylindrical body 6 of the screw press 7. Under the action of the force of the horizontal screw 8, a sediment layer forms on the circumference of the perforated cylinder 9. The horizontal screw 8 conveys the dehydrated sludge to the opposite end of the housing 6, where the pressing effect further enhances the process of water separation.

 The moisture content of the dehydrated sludge can be controlled using a pressure control valve 10.

 Separated as a result of pressing the sludge, the water is discharged through the squeeze water pipe 11 and is supplied to the installation inlet.

 The cleanest centrate is collected in the central part of the seal, where the trays for its collection are located. Getting into them, the centrate on the pipeline 5 is discharged from the installation.

Claims (1)

 1. Installation for sludge dewatering, including a seal with trays for collecting the centrate, vertically located in its lower part with a screw, a screw press with a cylindrical body, a horizontal auger, a perforated cylinder and a pressure control valve, sludge supply pipes, centrifuge outlet and squeezing water, characterized the fact that the sludge supply pipe is connected tangentially to the sealant, and the centrate collection tray is located in its center.

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