RU108031U1 - DEVICE FOR TAKING OIL SLUDGE AND BOTTOM DEPOSIT FROM SLUDGE DRIVER - Google Patents

Abstract

 A device for collecting oil sludge and bottom sediment from a sludge collector, containing several receiving tips lying on the bottom of the sludge collector and pumps for them, characterized in that the pumps for receiving tips are made in the form of steam ejectors, the active nozzle of which is connected to the steam supply line, and the passive nozzle made in the form of a conical bell, covering the active nozzle, through which the sludge and bottom sediment are taken, and a float with a closed a configuration enclosing a part of the surface of the sludge collector, into which oil sludge and bottom sediment enter from the receiving tips lying on the bottom of the sludge collector through flexible pipelines, and an additional receiving tip is placed on the fenced part of the surface of the sludge collector, equipped with a hydraulic elevator taking oil sludge and mechanical inclusions from the shielded surface which along a flexible hose connected to the opposite end of the additional receiving tip from the hydraulic elevator, pumped for further processing.

Description

The utility model relates to the field of the oil refining industry and, in particular, to installations for the processing of oil sludge and the disposal of bottom sediments of sludge collectors.

A known installation for the processing of oil sludge and disposal of bottom sediment sludge collectors, containing a device for collecting and pumping oil sludge and bottom sediment sludge collector. (see Installation for the processing of oil sludge - M .; report Vniineftemash. State. Reg. No. 01880065608, 1988). A disadvantage of the known device for collecting and pumping oil sludge and bottom sediment of a sludge collector, which does not pre-process the selected products.

The closest in technical essence to the proposed device is a device for collecting and pumping oil sludge or bottom sediment sludge collector described in the patent of the Russian Federation No. 2075447, 1997. This device, adopted as a prototype, contains a receiving tip immersed in a layer of oil sludge or bottom sediment sludge collector, and pump. In addition, this device includes a device for erosion of the bottom sediment with a mechanism for adjusting the intensity of erosion, a rotary frame with an arrow, a mechanism for rotating the frame with an arrow and a mechanism for raising the arrow.

A disadvantage of the known device is that it cannot be used in winter, when the surface of the sludge collector freezes and becomes covered with a crust of ice and snow. In addition, it also does not pre-treat oil sludge and sediment, facilitating their subsequent processing.

The objective of the utility model was to create such a device for the selection and pumping of oil sludge and bottom sediment from the sludge collector, which makes it possible to use it in winter and provides preliminary processing of the selected oil sludge and bottom sediment, facilitating the process of their further processing.

This problem is solved by the fact that the proposed device for the selection of oil sludge and sediment from the sludge collector, containing several receiving tips lying on the bottom of the sludge collector and pumps for them, in which, according to a useful model, the pumps for receiving tips are made in the form of steam ejectors, the active nozzle of which is connected with a steam supply line, and the passive nozzle is made in the form of a conical socket, covering the active nozzle, through which oil sludge and bottom sediment are collected, and on the surface sludge collector installed a float having a closed configuration, enclosing part of the surface of the sludge collector, which receives non-sludge and bottom sediment from the receiving tips lying on the bottom of the sludge collector through flexible pipelines, and at least one additional receiving tip equipped with a hydraulic elevator is placed on the fenced part of the surface of the sludge collector, carrying out sampling of oil sludge and mechanical impurities from the fenced surface of the sludge collector, which through a flexible hose connected to opposite to the hydraulic elevator end of the additional receiving tip, is pumped for further processing. Another difference of the device is that it is equipped with a steam distributor made in the form of a plugged pipe section, connected to the main steam line, which is equipped with nozzles connected through shut-off valves to the active nozzles of the steam ejectors of the receiving tips lying at the bottom of the sludge collector, and at the entrance to the steam distributor a surfactant dispenser is installed. Another difference of the device is that the pipelines connected to the output ends of the receiving tips are made in the form of flexible corrugated pipelines.

Among the differences of the device, it should be noted that flexible corrugated pipelines connected to the output ends of the receiving tips are mounted on a float that encloses part of the surface of the sludge collector, from which oil sludge and mechanical inclusions are collected.

Another feature of the device is that an additional receiving tip, located on the fenced surface of the sludge collector, is equipped with floats that hold it on the surface.

Due to the above-mentioned features of the device, it is possible to achieve a technical result, which consists in the fact that the proposed device can be used to select oil sludge and bottom sediment from the sludge collector both in summer and in winter, since the surface of the sludge collector enclosed by the float is constantly heated by steam coming from receiving tips lying on the bottom of the slime accumulator. In addition, the proposed device provides pre-treatment of products taken from the bottom of the sludge collector, which are heated with steam to a temperature of 40-50 ° C, intensively mixed in flexible corrugated pipelines and exposed to surfactants. This facilitates the process of subsequent processing of oil sludge and mechanical impurities.

The essence of the utility model is illustrated by the drawing, which schematically shows the proposed device (top view of the surface of the sludge collector).

The device contains receiving tips 1, laid on the bottom of sludge collector 2. At one end of the receiving tip there is a steam ejector 3, the active nozzle 4 of which is connected to the steam supply line 5 from the steam distributor 6. The passive nozzle 7 of the steam ejector 3 is made in the form of a conical socket through which oil sludge and bottom sediment are collected. The inlet of the passive nozzle is blocked by a grid (not shown in Fig.) To delay large mechanical inclusions (stones, etc.). A flexible corrugated pipe 8 is fixed at the opposite end of the receiving tip 1 from the steam ejector 3 and serves to transport the selected oil sludge and bottom sediment and supply it to the surface of the sludge collector 2 enclosed by the float 9. The float 9 has a closed configuration in the form of a square or circle. Pipelines 8, which serve to supply oil sludge and bottom sediment to the fenced surface of the sludge collector 2, are mounted on the float 9 using fasteners 10. An additional receiving tip 11 is installed on the surface of the sludge collector fenced by the float 9, at the inlet of which a hydraulic elevator 12 is installed, which carries out intake from the near-surface a layer of oil sludge and particles of bottom sediment. The hydraulic elevator is equipped with a flexible hose 13 for supplying water under pressure. A flexible hose 13 is mounted on the float 9 using fasteners 14. At the opposite end of the additional receiving tip 11 a flexible corrugated pipe 15 is fixed, which is used to transport oil sludge and particles of bottom sediment taken by hydraulic elevator 12 for further processing, for example, into a gravity separator 16. Flexible corrugated pipe 15 is also fixed to the float 9 by means of fasteners 17. An additional receiving tip 11 is equipped with floats 18, holding it to the fenced oh 9 via surface float sludge tank. A compressor 19 is used to pump water under pressure into a hose 13 connected to a hydraulic elevator 12.

The steam distributor 6 is a plugged portion of the pipe 20, the input 21 of which is connected to the steam supply line 22. At the inlet 21 of the steam distributor 6, a dispenser 23 is installed, which periodically injects a metered amount of a surfactant into the steam stream. The steam distributor 6 is equipped with nozzles 24, which are connected through shut-off valves 25 to the lines 5 for supplying steam to the steam ejectors 3 of the receiving tips 1 located at the bottom of the sludge collector.

The device operates as follows.

Steam is supplied to the steam distributor 6 via line 22, into the flow of which a metered amount of surfactant is injected periodically using a dispenser 23. From the steam distributor 6 through the nozzles 24, through the open shut-off valves 25 pairs with the surfactant enter the steam supply lines 5 into the active nozzles 4 of the steam ejectors 3 of the receiving tips 1, laid at the bottom of the sludge collector 2. Due to the vacuum created in the ejector 3, the holes are fed into conical socket 7 of the first oil sludge tip and bottom sediment, which are transported in a steam stream through pipelines 8 to the surface of the sludge collector 2 enclosed by a float. Moreover, in the receiving tips 1, and then in In pipelines 8, the selected oil sludge and bottom sediment are pre-treated: they are heated to a temperature of 40-50 ° C, mixed thoroughly and exposed to the surfactant contained in the steam. The oil sludge and bottom sediment entering the surface of the sludge collector in the steam stream 9 enclosed by the float 9 and the bottom sediment are captured by the inlet nozzle (not shown in Fig.) Of the hydraulic elevator 12 through an additional tip 11 through pipeline 15 are transported to the gravity separator 16 for further processing. Hydroelevator 12 is a water ejector, the active nozzle of which is connected to the pipe 13 for supplying water under pressure from the compressor 19, and a passive nozzle (not shown in Fig.) Immersed in the surface layer of oil sludge, collects this oil sludge and particles settling in this layer mechanical inclusions. Due to the fact that the heated stream of oil sludge and bottom sediment continuously enters the surface of the sludge collector 2 enclosed by a float 9, this surface section does not freeze in the winter and the device can be used year-round. It should be noted that the float 9 together with the receiving tips 1 and 11 can be moved using one of the appropriate devices (not shown in FIG.) From one surface section of the sludge collector 2 to another.

Claims (1)

A device for collecting oil sludge and bottom sediment from a sludge collector, containing several receiving tips lying on the bottom of the sludge collector and pumps for them, characterized in that the pumps for receiving tips are made in the form of steam ejectors, the active nozzle of which is connected to the steam supply line, and the passive nozzle made in the form of a conical socket covering the active nozzle through which the sludge and bottom sediment are taken, and a float with a closed a configuration enclosing a part of the surface of the sludge collector, into which oil sludge and bottom sediment enter from the receiving tips lying on the bottom of the sludge collector through flexible pipelines, and an additional receiving tip is placed on the fenced part of the surface of the sludge collector, equipped with a hydraulic elevator taking oil sludge and mechanical inclusions from the shielded surface which along a flexible hose connected to the opposite end of the additional receiving tip from the hydraulic elevator, pumped for further processing.