SU1773441A1 - Biomicrofilter - Google Patents

Description

The invention relates to a technique for filtering suspensions and can be used in the production of bacterial protein of treatment facilities (bacprotos), in the treatment of agricultural effluents, combined with fodder preparation.

Known biomicrofilter, which includes a housing with branch pipes for supply and removal of media, a drive shaft with disks and a filter partition attached to them with its bases, the disadvantage of which is a decrease in productivity due to biofouling of the pores of the partition, which reduces the free area, resulting in productivity! ie exceeds 30-35 m ³ / (m ² h), that is, several devices are required.

Known biomicrofilter, which includes a housing with branch pipes for supply and removal of media, a drive shaft and an additional shaft mounted on the hinge of the lower disc with an upper disc and attached to it with its narrow base. A conical elastic filter partition, in which, during unloading, the deposition of bacprotos, a fodder protein additive on the wall the case and during long-term operation causes decay and damage, i.e. decrease in quality.

The purpose of the invention is to improve the quality of the protein feed additive.

This goal is achieved by the fact that the additional shaft is installed at an angle to the drive shaft and offset to the side opposite to the sludge discharge branch pipe.

When displaced, i.e. installation of an additional shaft at an angle to the drive shaft, the angle of sludge discharge becomes maximum towards the sludge discharge pipe, which excludes its deposition on the body from the opposite side of the pipe.

The drawing shows a longitudinal section of a biomicro filter, including housing 1 with a supply pipe 2, a clarified waste drain pipe 3 and a feed protein additive outlet pipe 4, a drive shaft 5 and an additional shaft 8 mounted on a hinge 6 of the lower disc 7 with an upper disc 9 and attached to it with its own narrow base 10 conical elastic filtering baffle 11. An additional shaft 8 is installed at an angle A ₍ to the drive 5 and offset to the side; opposite to the sludge discharge nozzle 4. The body 1 is made with a cone 12, and the baffle 11 with a ring 13, an additional shaft 8 with rotation support 14. and the lower disc 7 with windows 15.

Biomicrofilter works as follows.

The effluent, after biological treatment and accumulation of biomass of aerobic microorganisms, through the branch pipe 2 through the windows in the disk 9 rotating on an additional shaft in the rotation support 14 through the garnish 6 from the drive shaft 5, enter the conical elastic filtering partition 11, attached by its narrow base 10 to the upper disc 9. Under the action of the pressure difference created by the centrifugal force of the mass of wastewater, water is separated by filtration and from the housing 1 along the cone 1.2 is discharged in the spray through the tangential nozzle 3. On the partition 11 a layer of protein feed additive sediment is formed, which moves in an oscillating mode. When the partition 11 is in the position on the left side of the drawing, unloading occurs, since the angle of its inclination is greater than the angle of friction of the sediment on the material of the partition, and in the right - braking. When the partition 11 rotates, these angles change, as a result, the unloading occurs only in the direction of the tangential branch pipe 4 in the spray torch, i.e. in a mixture with air, and the sediment passes through the windows 15 of the lower disc 7. During commissioning, mixing the rotation support 14 at an angle A sets the optimal modes of braking and unloading the sediment on the partition 11. Ring 13 acts as a centering element for the partition 11 and at the same time its ventilation effect prevents the deposition of the protein additive on the body from the side opposite to the discharge pipe 4 and its deterioration, i.e. decrease in quality.

The technical and economic effect is that improving the quality of the feed protein supplement, the production cost of which is 3-4 times lower than the cost of hydrolyzed feed yeast, reduces the production costs of milk, meat, eggs, since feed costs account for 70% of all costs in poultry farming and animal husbandry. At the same time, the combination of the production of protein feed additives with wastewater treatment makes the work of treatment facilities cost-effective, with an increase in the quality of treatment.

Claims (1)

Claim Biomicrofilter, which includes a housing with nozzles for supplying and removing media, a drive shaft and an additional shaft with an upper disc mounted on the hinge of the lower disc and a conical elastic filter partition attached to it with its narrow base, which protects with the fact that. in order to improve the quality of the protein feed additive, to the drive shaft and offset to the side, an additional shaft is installed at an angle _: opposite to the sludge discharge branch pipe.