RU2092453C1 - Microfilter - Google Patents

Abstract

FIELD: waste water treatment. SUBSTANCE: microfilter contains drive shaft on which installed are in parallel: upper disk with discharge cavity communicating with the latter through symmetrically arranged perforated pipes; auxiliary disk; lower disk; conical filtering barrier fixed on periphery of disks, its internal cavity being connected to connecting pipe for feeding medium to separate biomass; and outlet pipes. EFFECT: improved design. 2 dwg

Description

 The invention relates to techniques for the separation of microorganisms in microbial wastewater treatment by microfiltration and can be used in dairy, cheese, cannery, meat processing plants and other enterprises.

 A microfilter containing a drive shaft is known, with upper and lower disks mounted on it in parallel, a conical filtered partition fixed on the perimeters of the disks with its bases, the inner cavity of which is in communication with the medium supply pipe for biomass separation, and the spacer element a. USSR N 674797, class In 04 In 1/04, 1968 /, the disadvantage of which is a slip of microorganisms during filtration, which reduces the efficiency of the work.

 The purpose of the invention is to increase work efficiency by the fact that between the upper and lower disks an additional disk is placed, connected to the upper disk by symmetrically mounted pipes made with perforated walls, the lower end of the pipes being plugged, and the upper end in communication with the pressure cavity of the upper disk and the medium supply pipe to the biomass separation.

 When the drive shaft with the upper and lower disks rotates, under the action of inertia forces, wastewater with microorganisms suspended in them is sprayed from the perforated walls of the symmetrically installed pipes, and the spray torch minimizes deformation of the underlying layer on the inner surface of the filtered partition made multilayer. A slip through the inner layer is eliminated by a subsequent layer, etc. Under the influence of the tangential component of the centrifugal force, the layer slides from top to bottom and ensures the formation of a filtered substrate, which ensures the separation of micro suspensions.

 In FIG. 1 is a schematic longitudinal section of a microfilter; in FIG. 2 schematically, a sewage treatment plant.

 The microfilter contains a drive shaft 1 with parallel upper 2 and lower 3 disks mounted on it along the perimeters of disks 2 and 3 with their bases, a conical filter baffle 4, the inner cavity 5 of which is in communication with the pipe 6 for supplying the medium to the biomass compartment and the spacer element 7. Between the upper 2 and lower 3 disks placed an additional disk 8, communicated with the upper disk 2 symmetrically installed pipes 9 made with perforated walls 10, and the lower end 11 of the pipes 9 is muffled, and the upper end 12 puppy with a pressure cavity 13 of the upper disk 2 and a pipe 6 for supplying the medium to the biomass compartment. The filter membrane 4 is made with an inner layer 14 and is placed in the housing 15 with tangential nozzles 16 and 17 of the outlet of the separated media. The microfilter 18 is connected by its pipe 6 with a biocultivator 19 made with horizontal partitions continuous 20 and perforated 21, forming blasting 22 and cultivating 23 sections, the latter being communicated with overflow pipes 24, and the blowing sections 22 are in communication with air blowers 25. Microfilter 18 biomass communicated with the disintegrator 27 and a container for protein and vitamin supplements 28. The cultivating sections 23 are equipped with an abrasive granular immobilization nozzle / AZIN / 29. The biocultivator 19 is made with technological nozzles 30, 31 and 32, and the pipe 33 communicates with the hopper 34.

 The microfilter in the technological installation of wastewater treatment works as follows.

The drains in the feeder 34 are adjusted according to biogenic nutrients, adjusted so that between carbon, nitrogen and phosphorus there is a ratio of 100: 5: 1. The sewage in the biocultivator 19 in the cultivating sections 23 is treated with air, while sparging through the perforated septum 21 from the blasting section 22 in communication with the air heater 25, in the presence of a nozzle 29 / expanded clay, expanded perlite, modified zeolite, etc. /. Drains through overflow pipes 24 sequentially pass from top to bottom with the adaptation of microorganisms to change nutrients. From the lower overflow pipe 24, the effluent with microorganisms suspended in them enters the nozzle 6 of the microfilter 18. From the pressure cavity 13, the effluent is poured into the pipe 9 and sprayed through the perforated wall 10 in the inner cavity 5 of the inner layer 14 of the filter partition 4, forming a uniform drain layer and forged sediment layer. The resulting substrate is moved under the influence of the tangential component of the inertia force from top to bottom and under the additional disk 8, the sludge is dried, which is discharged through the windows of the lower disk 3 into the housing 15, and from it is discharged through the tangential pipe 17 in the spray torch. The passage of the microorganism through the inner layer 14 is delayed the filter baffle 4 and the biomass is discharged by the gap between them, and the clarified water from the casing 15 is discharged in a spray torch along the tangential pipe 16 and can be used in water circulation of the enterprise. The biomass from the microfilter 18 is disintegrated in a centrifugal disintegrator 26 by hydrodynamic, cavitation and thermal effects on the shell. Disintegrate is a biostimulator of the reproduction and development of microorganisms in biocultivator 19, increasing the efficiency of wastewater treatment. Dead and old microorganisms are removed through nozzles 30 and 31 and separated from water in microfilter 18. The excess biomass is heated in a heat exchanger-sterilizer 27 to a temperature of 90-95 ^o C and used as a protein-vitamin supplement / BVD /. The use of BVD at the rate of 1 g per 1 kg of live weight of animals and poultry reduces feed consumption by 20-30% by 30-40%, egg production, milk yield, meat gain are reduced, the mortality rate of young animals is reduced, the genetics of the parent herd is improved. The cost of BVD is ten times lower than the cost of hydrolyzed fodder yeast. The combination of wastewater treatment with the production of BVD turns the treatment plant into a cost-effective division of agricultural processing enterprises, the food industry.

Claims (1)

 A microfilter containing a conductive shaft with parallel upper and lower disks mounted on the perimeter of the disks with their bases, a conical filter baffle, the inner cavity of which is in communication with the medium inlet to the biomass compartment, and a spacer element, characterized in that between the upper and lower disks an additional disk is placed in communication with the upper disk by symmetrically mounted pipes made with perforated walls, the lower end of the pipes being plugged and the upper end communicated with the pressure cavity of the upper disk and the pipe for supplying the medium to the biomass compartment.

Images