RU2248327C1 - Device for purification of oily waste water - Google Patents

Abstract

FIELD: petroleum industry; equipment of purification of oily waste water at oil fields.

SUBSTANCE: the invention is dealt with equipment for purification of oily waste water and may be used at enterprises engaged in purification and use of waste water of oil fields. The device contains: a pipeline of delivery of initial oily waste waters; a forcing hydrocyclone with a cylindrical chamber installed at the lower unloading outlet of which; a settler; distributing devices. The settler has separating partitions, crude oil collectors, a device for withdrawal of purified water and also settlings. For exclusion of effect of a hydrostatical liquid column on the processes of fragmentation and coalescence of drops of petroleum the hydrocyclone and the cylindrical chamber are installed horizontally. The connecting pipe of withdrawal from the upper unloading outlet of the hydrocyclone is tangentially connected to the cylindrical chamber of the lower unloading outlet of the hydrocyclone in the direction of a swirling flow in the chamber of the lower unloading outlet at a space equal to 1.0-1.1 of diameter of the chamber from its front butt. The technical result is an increase of efficiency of purification.

EFFECT: the invention ensures increased efficiency of oily waste water purification.

1 dwg

Description

The invention relates to techniques for cleaning oily wastewater and can be used in all sectors of the economy, the wastewater of which contains oil and oil products.

A device for wastewater treatment according to.with. USSR No. 1063784 A, IPC ⁶ C 02 F 1/40, publ. 12/30/83, BI No. 48, including a hydrocyclone with source water inlets, a device for distributing wastewater, a wastewater treatment chamber equipped with a vertical partition separating the chambers of the upper and lower drains of the hydrocyclone, inclined horizontally and connected in the upper part a gap in the partition. This device is equipped with a metering pump, the suction pipe of which is in communication with the upper part of the sump, and the discharge pipe - with a pipe for supplying source water. The effectiveness of the developed device is achieved by artificially increasing the concentration of oil in the source wastewater.

The disadvantage of this device is its relative complexity and the inability to use the residual energy of the swirling flows on the discharge of a hydrocyclone.

A device for purifying oily wastewater according to.with. USSR No. 837925, IPC ⁶ C 02 F 1/40, publ. 06/15/81, BI No. 22, including a sump with an oil collector, an emulsion inlet pipe, an outlet pipe for purified water, trapped oil and sludge, respectively. A pipe is mounted tangentially to the emulsion inlet pipe, in which the dispersant - nozzle is installed.

The disadvantage of this device is the low efficiency of purification of oily wastewater due to insufficient use of the energy of the swirling flow in the pipe supplying the emulsion to the sump.

A device for cleaning oily wastewater A.S. USSR No. 1699935, IPC ⁶ C 02 F 1/40, publ. 12/23/91, BI No. 47, including a sedimentation tank with an oil collector, a nozzle for introducing an emulsion, made with a diameter to length ratio of 1: 10-1: 50, a hydrocyclone chamber with a tangential inlet, which is equipped with a dispersant in the form of a nozzle, nozzles for removal of purified water, trapped oil and sludge.

The disadvantage of this device is the low efficiency of purification of oily water due to insufficient use of the energy of the swirling flow in the pipe connecting the sump and pipe to the dispersant. This is explained by the fact that almost all the energy of the swirling flow is spent on the separation of the emulsion into oil and water, and not on the coalescence of oil droplets when it moves along the pipe.

A device for wastewater treatment according to the ASSR USSR No. 956438, IPC ⁶ C 02 F 1/40, publ. 09/07/82, BI No. 33, which is a combination of a hydrocyclone-sump and consisting of a feed water supply pipe, a pressure hydrocyclone, a connecting pipe, distributors for the lower and upper drains, respectively, a sump separated by a two-tier partition, and pipes for removal of cleaned water, oil and sludge.

This device is equipped with adjustable siphons, which are used to distribute and balance the pressures in the system - connecting pipe - sump, to stabilize the hydrodynamic regime of the cleaning process.

The disadvantage of this device is also the low efficiency of purification of oily wastewater due to insufficient use of the residual energy of the swirling flow on the discharge of a hydrocyclone.

The prototype of the invention is a device for wastewater treatment (US Pat. RF No. 2189360, IPC ⁶ 02 F 1/40, publ. September 20, 2002, BI No. 26), including a hydrocyclone with nozzles for supplying source water, drainage of the upper and lower drains , a sump equipped with a vertical baffle, not reaching its upper part, with pipes for oil drainage, purified water and sludge, cylindrical chambers are installed at the outlet of the upper and lower discharge of the hydrocyclone.

The disadvantage of this device is the low cleaning effect of oily water due to insufficient use of the residual energy of the swirling flow in the discharge chambers in the absence of optimal conditions for coalescence of oil particles due to the low concentration of oil particles in the swirling flow of the lower discharge chamber of the hydrocyclone.

The invention is aimed at increasing the effect of purification of oily wastewater.

The solution to the problem is achieved by the fact that in a device for purifying oil-containing wastewater, including a hydrocyclone with nozzles for supplying source water, a drain for the upper drain and a drain for the lower drain, cylindrical chambers installed at the outlet of the upper and lower drains of the hydrocyclone, a sump equipped with a vertical partition is not reaching its upper part, nozzles for draining oil, purified water and sludge, a hydrocyclone and a cylindrical chamber are installed horizontally, while the nozzle for draining from the upper discharge of the tang cially connected to the cylindrical chamber of the hydrocyclone underflow into the direction of swirling flow in the underflow chamber and at a distance of 1.0-1.1 diameter chamber from its front end.

The device (drawing) consists of a pipeline 1 for supplying the initial oil-containing wastewater, a pressure hydrocyclone 2, a cylindrical chamber 3, installed at the outlet of the pipe 4 for discharge of the lower discharge of the hydrocyclone 2. To exclude the influence of the hydrostatic column of liquid on the processes of crushing and coalescence of oil drops and hydrocyclone 2 and a cylindrical chamber 3 is mounted horizontally. The pipe 5 drain outlet of the upper drain pipe 6 is tangentially attached to the cylindrical chamber 3 in the direction of the swirling flow in the chamber 3 of the lower drain at a distance equal to 1.0-1.1 diameter of the chamber from its front end 7.

The sump 8 has a switchgear 9 for water coming from the cylindrical chamber 3 of the lower discharge of the hydrocyclone 2.

The sump 8 also has dividing walls 10, not reaching the upper and lower parts of the sump and dividing the sump into the working 11 and buffer 12 volumes.

In the upper part of the sump 8 there are oil collectors 13 and 13 * with nozzles for oil drainage 14 and 14 *.

A device for discharging purified water 15 with a chipper 16 is located in the buffer volume 12 of the sump 8. In the lower part of the sump 8 there are pipes for draining the sediment 17 and 17 *. In the upper part of the sump 8, a layer of settled oil 18 is formed.

The device operates as follows.

The source water containing floating and emulsified oil, as well as mechanical impurities, is piped 1 under a pressure of 0.4 MPa to a hydrocyclone 2, where the oil-containing wastewater is hydrodynamically treated in a centrifugal force field, as a result of which the armor shells on oil particles are destroyed and the source water is divided into two emulsion flows: the stream from the nozzle 4 of the lower discharge of the hydrocyclone 2 enters the cylindrical chamber 3 in the form of a swirling jet, the energy of which is used to increase the effec The effectiveness of coalescence, and hence the treatment of oily wastewater. Under the influence of centrifugal forces, most of the light impurities - oil are concentrated in the central zone of hydrocyclone 2, where a stream is formed, enriched (highly concentrated) with oil particles, with a damaged armor shell (“fresh” surface of the internal oil phase), called the emulsion, which is from pipe 5 the upper discharge of the hydrocyclone 2 also enters the cylindrical chamber 3 through a pipeline 6 tangentially attached to the cylindrical chamber 3 of the lower discharge in the direction of the swirling flow in the chamber 3 and and a distance equal to 1.0-1.1 of the diameter of the chamber from its front end 7.

The place of entry of the emulsion flow from the upper discharge of the hydrocyclone 2 into the cylindrical chamber 3 of the lower discharge is due to the fact that the swirling stream when the lower drain from the nozzle 4 expires into the chamber 3 forms a circulation zone, which extends in the volume of the chamber 3 from its end to a considerable distance and with a significant loss of pressure, which makes it possible to ensure the flow of the emulsion from the upper discharge of the hydrocyclone 2 inside the cylindrical chamber 3.

The flow of the oil-rich emulsion from the upper discharge of the hydrocyclone 2 into the cylindrical chamber 3, in which a swirling jet, which is a finely dispersed low-concentration emulsion, spreads, intensifies the coalescence process in the cylindrical chamber 3, since it is known that the coarsening of oil droplets occurs more intensively .

In addition, when the emulsion of the upper drain is returned to the lower drain chamber 3, the total flow rate and the turbulence intensity of the total flow, the swirl intensity and the length of the swirl flow in the chamber 3 increase; there is a quick mixing of the flow of the emulsion and the upper drain to the flow of the lower drain and the joint additional time and intensity hydrodynamic processing of the total swirling flow of the emulsion in the chamber 3. All this contributes to a more complete and faster completion of the process of coalescence of oil particles, smoothing the polydispersity of the internal oil phase of the emulsion, and therefore, increasing the effect of purification of oily wastewater.

The emulsion flow from the cylindrical chamber 3 enters the distributor 9, and from it in the form of a uniformly distributing flow into the oil layer 18, where the contact water is cleaned from oil.

The trapped oil accumulates in the layer 18 and, as it accumulates, is discharged through the oil collector 13 and the nozzle 14. The settled water with a residual oil content through the partitions 10 enters the buffer zone 12 of the settler 8, where the sedimentation of oil particles that accumulate in the oil collector 13 * takes place, and is discharged through a branch pipe 14 *.

The purified water from the buffer zone 12 of the sump 8 through the pipe 15 with the chipper 16 is discharged to the consumer. The accumulated sediment in the sump 8 is discharged through the pipe 17 and 17 *.

The use of the invention will improve the efficiency of purification of oil-containing wastewater due to multiple complex hydrodynamic processing of the emulsion in a cylindrical chamber 3 of the lower discharge with a tangential connection to the chamber 3 of the pipe 5 of the outlet of the upper discharge of the hydrocyclone, which makes it possible to create an effective technology for the purification of oil-containing wastewater with the least material and energy costs.

Claims (1)

A device for treating oil-containing wastewater, including a hydrocyclone with nozzles for supplying raw water, a drain for the upper drain and a drain for the lower drain, a cylindrical chamber installed at the outlet of the lower drain, a sump equipped with a vertical baffle that does not reach its upper part, pipes for oil drain, purified water and sludge discharge, characterized in that the outlet pipe of the upper discharge of the hydrocyclone is tangentially connected to the cylindrical chamber of the lower discharge of the hydrocyclone in the direction of the swirling flow and in the chamber and at a distance equal to 1.0-1.1 of the diameter of the chamber from its front end.