RU2512450C1 - Disintegrator for processing of oil-bearing wastes - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to equipment for recovery of wastes, particularly, to disintegrators of oil slimes and water-oil emulsions by hydrodynamic and cavitation effects and may be used in oil and oil processing industries. Proposed disintegrator mixer, finished product vessel and vortex pump. Said mixer is connected to vortex pump intake pipe while finished product vessel is connected to vortex pump delivery pump. Said vortex pump is furnished with feed control bypass line including jet-type cavitation device and throttling devices.

EFFECT: fragmentation of wastes to allow their use as fuel.

1 dwg

Description

The invention relates to equipment for waste disposal, and in particular to devices for the disintegration of oil sludge and water-oil emulsions by hydrodynamic and cavitation effects, and can be used in the oil and oil refining industries.

The processing of oily wastes to extract valuable hydrocarbon components from them and the prevention of environmental pollution are an urgent problem at present.

Various devices based on the methods of dispersion, flotation, destruction, sterilization, extraction, disintegration, etc. are used for the processing of oily waste.

A disintegrator is known, including two rotor disks arranged coaxially to each other with rims perforated in the cylindrical part along the periphery, fingers fixed along concentric rows on the disks, and a drive providing rotation of the disks in opposite directions, rotor shafts are hollow, disks are mounted on shafts rotors at an angle to provide reciprocating movement of the processed material in the axial direction from disk to disk, accompanied by periodic oscillations of the device . Each finger of each disk has a beginning on one side of the disk and a continuation on the other side of the disk, while the plane of the finger ends on one side of the disk is parallel to the plane of the finger ends on the other side of the disk. In addition, the fingers are removable in the form of conical rods having a pointed star in cross section that decreases in size from the middle part to the periphery of the rod (RF patent No. 2279316, MKI V02C 13/22, publ. 2006.07.10).

The disadvantage of this device is the insufficient degree of crushing of flooded oily waste.

Known disintegrator for processing oily waste containing a housing with loading and unloading nozzles and a rotor, including a shaft with a disk. An annular groove with radial holes is made in the cage of the disintegrator; the rotor disk has an annular protrusion with radial holes located inside the annular groove of the housing. The walls of the annular groove of the housing and the surface of the annular protrusion of the rotor disk entering into it are made in the form of cones having a common axis of rotation, which coincides with the axis of rotation of the rotor, and the gap formed by the conical surfaces of the annular groove of the housing and the annular protrusion of the rotor disk is made adjustable by axial displacement of the rotor relative to the cage of the disintegrator (RF patent No. 2217470, MKI C10C 3/14, publ. 2003.11.27).

The disadvantage of this design is the insufficient degree of crushing of flooded oily waste.

Closest to the claimed technical essence and the achieved result, selected as a prototype, is a disintegrator for the processing of oily waste, protected by RF patent No. 2397020, cl. B02C 13/22, publ. 08/20/2010 r.

The disintegrator for processing oily waste includes a cylindrical body, inside of which two rotors are mounted coaxially to each other in the form of disks in the form of disks mounted on hollow shafts, shock elements mounted on concentric rows on the disks, and a drive that rotates the disks in opposite directions. The shock elements are made in the form of symmetrical blades, the profile of which is limited on one side of the inner concave and on the other external convex surfaces, the ends of the blades form a sharp edge, while the shock elements are arranged so that when the rotors rotate, the inner concave part of the blade of each disk is oriented towards rotation with the possibility of creating countercurrents that cause mechanical shocks and hydraulic turbulence in the processed product, the destruction of colloidal substances, and the cavity of the shaft RAT for supplying oily waste.

The disadvantage of this device is the insufficient degree of crushing of flooded oily waste, which complicates the use of waste as fuel.

The objective of the invention is to provide an efficient and easy-to-use disintegrator for the processing of oily waste.

The technical result from the use of the invention is to increase the degree of crushing of waste into small fractions, allowing the use of flooded oily waste as fuel.

This result is achieved by the fact that the disintegrator for processing oily waste includes a mixer, a finished product tank and a vortex pump, while the mixer is connected to the suction port of the vortex pump, the finished product tank is connected to the pressure port of the vortex pump, and the vortex pump is equipped with a bypass flow control line, including jet cavitation apparatus and throttling devices.

The invention is illustrated in the drawing, which shows the proposed disintegrator for the processing of oily waste, including a vortex pump 1 with a suction pipe 2 and a discharge pipe 3. The vortex pump 1 is equipped with a bypass control line of the feed, including a jet cavitation apparatus 4 and throttling devices 5. To the suction pipe 2 vortex pump 1 connected to the mixer 6 with a mixture of oily waste with water. To the discharge pipe 3 is connected to the tank 7 of the finished product.

Disintegrator for the processing of oily waste is as follows.

The feedstock - a mixture of oily waste with water - from the mixer 6 is piped to the suction pipe 2 of the vortex pump 1, in which the waste is crushed into small fractions and emulsion is formed due to the vortex movement of the medium between the blades in the working volume of the pump 1. Through the pressure pipe 3 finished product in the form of an emulsion is fed into the tank 7 of the finished product. Using throttling devices 5 regulate the pump flow rate, the volume of the emulsion in the tank 7 and the quality of the emulsion due to the multiplicity of the passage of the mixture through the jet cavitation apparatus 4, which allows to obtain a finely dispersed homogeneous structure of the emulsion.

The vortex pump and throttling devices use industrial production. The mixer, piping, tank are made of corrosion-resistant materials. Inkjet cavitation apparatus can be made, for example, in the form of a confuser-diffuser section of the bypass feed control line or in the form of a central body of variable cross section placed in a special housing.

Compared with the prototype, the proposed disintegrator allows to increase the degree of crushing of water-containing oily waste and to obtain a finely dispersed homogeneous structure of the emulsion, allowing the use of waste as fuel. In addition, the combination of the crushing and pumping functions in the proposed disintegrator leads to a simplification of the design.

Claims (1)

A disintegrator for processing oily waste containing a mixer, a finished product reservoir and a vortex pump, the mixer is connected to a suction port of a vortex pump, a finished product reservoir is connected to a pressure port of a vortex pump, and the vortex pump is equipped with a bypass flow control line including a jet cavitation apparatus and throttling devices.