SU1747174A1 - Centrifuge - Google Patents

Abstract

Use: Filtration in the field of centrifugal forces. in particular, in the production of bacterial protein in the treatment of wastewater, preferably agriculture. SUMMARY OF THE INVENTION: A centrifuge includes a rotor consisting of two disks 5 and 6 of different diameters and a non-rigid filter screen 7 attached to them. A disk 7 of a large diameter disk 7 is attached to form an annular gap 8 between them. 3 or 17 words with 4J S

Description

The invention relates to a microfiltration technique in the field of centrifugal forces and can be used in the production of bacterial protein treatment plants (bacprotos) in the treatment of wastewaters, preferably agricultural.

A centrifuge is known, comprising a housing with sludge and filtrate collectors, a conical filter rotor mounted on the drive shaft, consisting of two disks of different diameters and a non-rigid filter partition attached to them.

The disadvantage of this centrifuge is a decrease in the permeability of the septum due to the biological overgrowing of pores under the conditions of supplying nutrient nutrients with the filtrate, which reduces the living cross section of the septum, reduces productivity due to the delayed discharge of sediment.

The purpose of the invention is to increase productivity by accelerating the discharge of sediment.

The goal is achieved by those. That in the centrifuge a non-rigid filtering partition is fixed on a disk of a larger diameter with the formation between them of an annular gap for the passage of sediment.

When the effluent is filtered after aerobic treatment due to the biogenic elements of the latter, there is an accumulation of biomass, the bacprotos, which, unlike active sludge, does not precipitate under the action of accelerated gravity. To recirculate the bakprotos for the needs of cleaning and collecting its excess amount for feeding purposes, it is necessary to separate it with wastewater clarification, which is performed on a non-rigid filtering partition. The separation of bacteria, the size of which is in the order of 1-4 microns, is performed not by the partition itself, but by the sediment layer between its texture, formed by the intersections of the weft and the base of the fabric, which allows water molecules to pass through but prevents bacteria from passing through. Under the action of the tangential component, the inertia forces and microvibrations are shifted in the direction of unloading by an excess of bacprotos. When the bacprotos move, its conglomerates form unbalanced masses, the inertia force of which deflects the partition from the axis of rotation. The deformation of the septum on the inner side causes the inertia forces of the mass of the bakprotos, causing the appearance of excessive air resistance forces on the rotation of the septum on the outer side. The mutual influence of these two factors

generates microvibrations that intensify the separation of the filtrate, moving and unloading the sediment. The magnitude of the microvibrations is determined by the size

annular gap between the septum and the larger diameter disc. Such local microvibrations arise many times and provide an increase in productivity by accelerating sediment discharge.

FIG. 1 shows a centrifuge, general view, longitudinal section; in fig. 2 is a longitudinal section of the rotor (enlarged): in FIG. 3 is a view A of FIG. 2

5 The centrifuge includes a housing 1 with a sediment collector 2 and a filtrate collector 3 mounted on a drive shaft 4 a conical filter rotor consisting of two disks 5 and b of different diameters and

0 attached to them non-rigid filter septum 7, which is fixed on the disk 5 of a larger diameter with the formation between them of the annular gap 8 for the passage of sediment. Collection 2 sediment made with

5 by a branch pipe 9 of its outlet, and a collection 3 of filtrate with a branch pipe 10. The upper disk 5 is mounted on stand 11, made with windows 12. To fix the partition 7 in a static state, it is made with holes 0 13, reinforced rings 14 and fixing bolts 15, and the cutout 16 of the partition 7 enters beyond the upper disk 5. A nozzle 17 is provided for supplying drains.

5 Centrifuge works as follows.

The drains after aerobic purification by the bacteria in the biocultivator (not shown) through the nozzle 17 through the windows 12 to the stand 11,

0 mounted on the lower disk 6 of the drive shaft 4, is transferred to the partition 7, where the filtrate is clarified when passing through a layer of bacteria and through the pores of the partition 7 is thrown into the collection 3 and

5 it is discharged in the spray plume through the nozzle 10, and the bakprotos concentrate moves under the action of the tangential component of the inertia and microvibration forces generated from the inside

0 by the forces of inertia of the unbalanced masses of the bakprotos, and from the outside by the forces of air resistance that prevent the swelling and return the partition to the shape of the surface of the body of rotation. The size of the deviation of the septum 7 is determined by an annular gap 8, through which the bakprotos concentrate passes and is discharged from the trimmer 16 into the collector 2. And from it is discharged in a spray pattern through the nozzle 9.

The technical and economic effect is. that the transition from purification with activated sludge to purification by bacteria adapted for nutrient feedstock effluents allows for the production of large quantities of bacprotos as feed protein supplement in conventional feed, i.e. carry out their balance enrichment for protein. The combination of sewage treatment with bakprotos production turns the sewage treatment plant into the most profitable agricultural subdivision, and the cost of production of protein from bacprotos is 3-4 times lower than the production of fodder yeast of the hydrolysis industry, and exceeds them in quality. Developing a bakprotos directly at the wastewater treatment plants of poultry and livestock complexes eliminates the need for heat treatment — drying, and it suffices to perform disintegration and sterilization.

Bacprotos pastes for decontamination of pathogenic flora, given that feed costs make up 70% of all costs in poultry and livestock, using a centrifuge for making bakprotos allows you to get cheap meat, milk and milk products for the needs of the population.

Claims (1)

Invention Formula A centrifuge containing a housing with a collection of sediment and filtrate mounted on a drive shaft; a conical filter rotor consisting of two disks of different diameters and attached there is a non-rigid filtering partition, characterized in that. in order to increase productivity by speeding up the discharge of sediment, a non-rigid filter partition is attached to the disk a larger diameter with the formation between them of the annular gap for the passage of sediment, Phage. 2  ft / ft ////////// sat% / %%, Ґ ////////// / У / 2