SU1726050A1 - Centrifuge - Google Patents

Abstract

This invention relates to a slurry separation technique, namely to paddle filter centrifuges, and can be used in the chemical, coal and food industries. The aim of the invention is to improve the quality of the separation. For this, an annular chamber 10 with nozzles 12 is attached to the shell 9 separating the collectors 3 and 4 of the sediment and filtrate of the housing 1. The inlet 11 of the chamber 10 is blocked by the flange 6 of the rotor 5, and the outlet openings of the nozzles 12 are taken out of the housing 1 for communication cavity chamber 10 with the atmosphere. 1 il.

Description

This invention relates to a slurry separation technique, in particular a centrifuge with a paddle rotor, and can be used in the chemical, coal and food industries.

A centrifuge is known that includes a blade rotor with filter elements, a housing and an actuator.

The disadvantage of this centrifuge is the absence of a seal between the rotor and the filtrate collection chamber, as a result of which the filtrate in the form of an aerosol (mixture of air and filtrate droplets) is discarded by centrifugal forces to the periphery and enters the solid phase collector, which deteriorates its quality.

Closest to the proposed technical entity is a centrifuge containing a blade rotor with a flange, a housing with sludge and filtrate collectors separated by a shell, in the upper part of which there is an annular chamber with inlet and nozzles whose outlet openings are led to

the inner wall of the filtrate collector and directed along the rotation of the rotor.

Such a design reduces the amount of filtrate penetrating as an aerosol through the gap between the rotor flange and the annular chamber into the sediment collector due to the capture and removal of aerosol from the annular chamber through the nozzles into the filtrate collector.

The disadvantage of this KOHCf operation is that the outlet openings of the nozzles are located at the fixed wall of the filtrate collector in the zone of relatively low aerosol flow rates. Due to the small ejecting effect of the flow, the filtrate from the annular chamber deteriorates, a significant part of the aerosol escapes through the gap between the flange and the annular chamber collection of sediment, reducing its quality. In addition, the location of the flange of the rotor so that the gap between it and the annular chamber is oriented towards the flow of the solid phase, leads to the latter in the annular chamber

and a collection of filtrate, which leads to a decrease in the quality of the filtrate.

The purpose of the invention is to improve the quality of separation by reducing the entrainment of already separated sediment and filtrate.

The goal is achieved by the fact that in the centrifuge the annular chamber is positioned so that its inlet opening is blocked by the rotor flange, and the outlet openings of the nozzles are led out of the housing to communicate the cavity of the chamber with the atmosphere.

Due to the fact that the inlet of the annular chamber is blocked by the rotor flange, the pressure here is below atmospheric. Therefore, the removal of the outlet openings of the nozzles behind the housing communicates the cavity of the annular chamber with the atmosphere and provides atmospheric pressure in the chamber, which prevents the influx of filtrate and sediment into the annular chamber and their entrainment.

The drawing shows a centrifuge, a section along the axis of the rotor.

The centrifuge includes a housing 1 with a chute 2 for feeding the suspension, a collector 3 of sediment, a filtrate collector 4, a blade rotor 5 with a flange 6 and a shell 7, a drive shaft 8. The collectors 3 and 4 are separated by a shell 9, in the upper part of which an annular chamber 10 is attached, having an inlet 11, blocked by a flange 6, and the chamber itself 10 by nozzles 12, the output ends of which are led out of the housing, are in communication with the atmosphere. The sediment is discharged through the windows 13, and the filtrate is discharged through the pipes 14 and the windows 15.

The centrifuge works as follows.

The original suspension is served on the chute 2 inside the rotor 5, where it is separated. The precipitate is withdrawn into collector 3, and the filtrate is collected into collector 4. During operation, the pressure in the zone of overlap of the inlet 11 by the flange 6 is lower than atmospheric due to ejection due to the flow of flow from the flange 6. The pressure in the annular chamber 10 communicating with the nozzles 12 with the atmosphere equals atmospheric. Therefore, air escapes through the opening 11, preventing the filtrate from entering, as well as sediment, from entering the chamber 10 after the separation stage.

Thus, the application of the proposed centrifuge improves the quality of separation of suspensions by preventing the filtrate and sediment from entering the annular chamber 10 and the filtrate entrainment into collection 3, and sediment into collection 4.

Claims (1)

Invention Formula A centrifuge containing a blade rotor with a flange, a housing with sludge and filtrate collectors separated by a shell, in the upper part of which an annular chamber with an inlet and nozzles is fixed, which in order to improve the quality of separation, the annular chamber is positioned so that the inlet is blocked by the rotor flange, and the outlet of the nozzles are led out of the housing to communicate the cavity of the chamber with the atmosphere.