RU2032476C1 - Equipment for treating wastes at hog raising farms - Google Patents

Abstract

FIELD: biological treatment of wastes by filtering in the field of centrifugal forces. SUBSTANCE: equipment represents body 1 with driving shaft 5 inside, and discs 6 and 7 with beveled non-rigid partitions 8 and 9 attached to them. Discs 6 and 7 are mounted on shaft 5 to form chamber 10 between them. There is space 11 between the above partitions. Cleansing liquid supplying pipe 12 communicates with chamber 10 and space 11. The external partition (8) is liquid proof, the internal one (9) is permeable. EFFECT: higher efficiency. 3 dwg

Description

 The invention relates to techniques for microbial wastewater treatment by bacteria adapted to high nitrogen concentrations, their separation by filtration in the field of inertia forces, followed by use as a protein-vitamin supplement in conventional animal and poultry feeds.

 A device for treating wastewater of pig breeding complexes is known, comprising a housing with nozzles for supplying sewage, sediment and clarified liquid, a drive shaft located in the housing, and two disks with non-rigid conical baffles mounted thereon, mounted on the shaft one above the other with the formation of a chamber between them and an annular gap between the partitions in communication with the chamber, the disadvantage of which is the high humidity of the sediment.

 The purpose of the invention is the reduction of moisture in the sediment.

 It is achieved by the fact that the device is equipped with a nozzle for supplying washing liquid in communication with the chamber between the disks and the annular gap between the partitions, while the outer partition is made impermeable to liquid, and the inner one is permeable.

 The implementation of the outer walls impervious to liquid creates a high-speed flow in the annular gap between the partitions, which ejects the liquid from the sediment moving along the inner surface of the permeable walls. At the same time, the high-speed flow in the annular gap provides oscillations of the internal partition, which contributes to water loss and a decrease in the moisture content of the sediment, and the flow in the annular gap is a liquid piston that creates a vacuum from the outside of the internal partition, ensuring the achievement of the object of the invention to reduce the moisture content of the sediment.

 In FIG. 1 shows a longitudinal section of a device; in FIG. 2 enlarged disk assembly with partitions; in FIG. 3 schematically, the installation of the production of protein-vitamin supplements using the device.

 A device for wastewater treatment of pig breeding complexes comprises a housing 1 with nozzles 2 for supplying sewage, 3 drainage sludge and 4 clarified liquids located in the housing 1 drive shaft 5 and two disks 6 and 7 with non-rigid conical partitions 8 and 9 mounted on them, mounted on the shaft 5, one above the other with the formation of a chamber 10 between them and an annular gap 11 between the partitions 8 and 9, in communication with the chamber 10. The device is equipped with a nozzle 12 for supplying washing liquid in communication with the chamber 10 between the disks 6 and 7 and the annular gap rum 11 between the partitions 8 and 9, the outer partition 8 is impermeable to liquid and permeable inner 9. Under the disk 7, an additional disk 13 is mounted on the drive shaft 5 with the formation of a chamber 14 between them, connected with the pipe 2 for supplying wastewater through the holes 15. The chamber 10 is made with holes 16 for supplying the washing liquid. The described device 17 is used in the installation for the production of protein-vitamin supplements (BVD), including a separator 18, aeration tank 19, a digester 20, a spray dryer 21 with a sprayer 22, a furnace 23 and a cyclone granulator 24.

 A device 17 for wastewater treatment of pig breeding complexes works in the installation as follows.

The waste products of pigs with bedding materials, water-washed and hydro-alloyed, enter the separator 18 for separating the suspensions and subsequent clarification in the device 17. The suspensions that are removed from the wastewater are dispersed and treated in the digester 20 with anaerobic microorganisms to produce biogas. Microorganisms are added to the clarified wastewater, selected for selection to high concentrations of nitrogen in the wastewater of the pig complex, and treated under aerobic conditions in aeration tank 19 by bubbling with air and increasing the biomass of the BVD. Wastewater with a weighted biomass of BVD concentration of about 20-40 kg / m ³ comes through the pipe 2 of the device 17 and through the holes 15 of the chamber 14 to the partition 9, permeable to liquid. Under the action of inertia forces that occur when the disks 6 and 7 rotate on the drive shaft 5, the liquid is clarified when passing through the partition 9 with the BVD being separated on its inner surface. The clarified liquid enters the annular gap 11 and, under the influence of the tangential component of the inertia force, begins to move downward along the liquid-tight partition 8. The flow moving in the annular gap is a liquid piston, which creates a vacuum in the pores of the partition 9 and in the sediment layer moving along it, which increases its dryness. The clarified wastewater from the annular gap 11 is ejected under the influence of inertia and in the spray torch are removed from the housing 1 along the tangential branch pipe 4. Sediment when moving along the partition 9 under the influence of the tangential inertia and pulsations generated by the liquid piston in the annular gap 11 is moved down and from the partition 9 is sprayed and discharged along the tangential pipe 3 to the sprayer 22 of the dryer 21. Periodically, with an increase in the moisture of the sludge, which reduces the efficiency of the drying process, the flow of wastewater through the cartridge the side 2 stops and a flushing liquid is supplied through the nozzle 12, which enters the annular gap 11 through the openings 16 of the chamber 10 in the direction opposite to the filtering direction, and rinses the pores of the partition 9. The flushing fluid is discharged from the housing 1 through the nozzle 4. After washing, the low sediment moisture is restored when wastewater is supplied through branch pipe 2. Sediment in the vortex of the coolant obtained by burning biogas from the digester 20 in the furnace 23 is dried and separated from the spent coolant in a granulator cyclone 24 and a grit size of 1-3 mm BVD enters the package at a humidity of 10%, which meets the requirements of storage and transport.

 The combination of wastewater treatment with the production of BVD turns the treatment plant into a cost-effective unit of the pig complex. The addition of BVD in the amount of 4-5% by weight of the feed reduces the consumption of conventional feed by 20-30%, while the weight gain of meat increases by 40%, the precocity of pigs is reduced, and the mortality rate is reduced, especially among young animals. The cost of feed in the pig complex is about 70% of all costs, and therefore the production of BVD reduces the cost of meat and meat products.

Claims (1)

 DEVICE FOR WASTE WATER TREATMENT OF PIG-BREEDING COMPLEXES, comprising a housing with nozzles for supplying wastewater, sludge and clarified liquid, a drive shaft located in the housing and two disks with non-rigid conical baffles mounted on them, mounted on the shaft one above the other with the formation of a chamber between them and an annular gap between the partitions in communication with the chamber, characterized in that, in order to reduce the moisture content of the sediment, it is equipped with a nozzle for supplying washing liquid in communication with the chamber between Kami and an annular gap between the partitions, the outer partition is not permeable to liquid and an inner permeable.

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