RU58201U1 - DEVICE FOR CAPTURE OF A FERROMAGNETIC LIQUID IN A PIPELINE - Google Patents

Abstract

The invention relates to the operation of pipeline systems, mainly in the transportation of cryogenic liquids, such as liquefied natural gas. The technical task of the invention is to ensure the capture of ferromagnetic fluid from the flow of the working product in the pipeline and its subsequent removal separately from the working product in a collection tank. The technical result is a higher ability and efficiency of trapping ferromagnetic fluid from the flow of the working product in the pipeline, increasing the efficiency of pumping the product through the pipeline using an electromagnetic pump. The technical result of ensuring the capture of ferromagnetic fluid from the flow of the working product in the pipeline and its removal separately from the working product is achieved by the fact that in the proposed device containing a collection of ferromagnetic fluid made of non-magnetic material located under the transport pipeline; a jack peak in the form of a corner, welded to the lower generatrix in the cavity of the pipeline and located behind the inlet pipe; an electromagnetic device in a separate cavity adjacent to the ferromagnetic fluid collector; thermal insulation on the transport pipeline, inlet and outlet pipes and ferromagnetic fluid collector; a drainage pipe without insulation and an evaporation tank, a baffle plate is welded into the cavity of the pipeline along the flow of the working product, directing the ferromagnetic fluid into the ferromagnetic fluid collector, and an electromagnetic device is made to prevent the supply of magnetic waves.

Description

The invention relates to the operation of pipeline systems, mainly during transportation of cryogenic liquids, for example, liquefied natural gas (LNG).

Known devices related to the technology of pumping through the product pipeline, in which ferromagnetic fluid is used as a sealing material, for example an electromagnetic pump (according to the copyright certificate N 819406, MKI F 04 D 13/06, 1980).

The disadvantage of this device is that the ferromagnetic fluid used as a sealing material, at high flow rates of the working product is partially carried away with him in the pipeline.

Known condensate collector, widely used for trapping water and condensate in gas pipelines (Skaftov N.A. Fundamentals of gas supply.

Leningrad: ″ Nedra ″ Leningrad Branch, 1975 - p.66), including a condensate collecting tank located under the transport pipeline and connected to it by an inlet and outlet pipe, and a drainage pipe to drain the accumulated condensate from the tank.

The disadvantage of this device is that it does not provide for the capture of ferromagnetic fluid from the flow of the working product in the pipeline.

The technical task of the invention is to ensure the capture of ferromagnetic fluid from the flow of the working product in the pipeline and its subsequent removal separately from the working product in a collection tank.

The technical result of the invention is a higher ability and efficiency of trapping ferromagnetic fluid from the flow of the working product in the pipeline, increasing the efficiency of pumping the product through the pipeline using an electromagnetic pump.

The technical result of ensuring the capture of ferromagnetic fluid from the flow of the working product in the pipeline and its removal separately from the working product is achieved by the fact that in the proposed device containing a collection of ferromagnetic fluid made of non-magnetic material located under the transport pipeline; a jack peak in the form of a corner, welded to the lower generatrix in the cavity of the pipeline and located behind the inlet pipe; an electromagnetic device in a separate cavity adjacent to the ferromagnetic fluid collector; thermal insulation on the transport pipeline, inlet and outlet pipes and ferromagnetic fluid collector; a drainage pipe without insulation and an evaporation tank, a baffle plate is welded into the cavity of the pipeline along the flow of the working product, directing the ferromagnetic fluid into the ferromagnetic fluid collector, and an electromagnetic device is made to prevent the supply of magnetic waves.

The invention is illustrated by drawings, in which Fig. 1 schematically shows a device for capturing a ferromagnetic fluid in a pipeline, connected to a pipeline for transporting a work product and functional parts that facilitate efficient capture of a ferromagnetic fluid; figure 2 is a transverse section aa of the pipeline and a longitudinal section bB, showing the location of the bump visor of the ferromagnetic fluid.

A device for collecting ferromagnetic fluid in a pipeline contains a transport pipeline 1, a collection of ferromagnetic fluid

2, a baffle visor 3, an inlet pipe 4 and an outlet pipe 5 with locking elements, an electromagnetic device 6, accumulated ferromagnetic fluid 7, a drain pipe 8 with locking elements, an evaporation tank 9, thermal insulation 10.

The device operates as follows.

When the working product moves through the pipeline 1, the entrained ferromagnetic fluid, having a density two or more times different from the cryogenic fluid, moves along the lower generatrix of the pipeline and, captured by the bump visor 3, is sent to the inlet pipe 4 of the ferromagnetic fluid collector 2, where the ferromagnetic fluid is held by electromagnetic device 6 (for example, an electromagnet). Then, the accumulated ferromagnetic fluid, when the flow of magnetic waves ceases, is discharged through the drain pipe 8 to the evaporation tank 9. At this moment, the shut-off elements at the inlet 4 and outlet 5 pipes connecting the transport pipe 1 to the ferromagnetic fluid collector 2 are closed, and the shut-off bodies drain pipe 8 open. To maintain the working product in a single-phase state, thermal insulation 10 of the transport pipe 1, input 4 and output 5 pipes and ferromagnetic fluid collector 2 is provided. There is no thermal insulation on the drain pipe 8 and the evaporation tank 9 to accelerate the evaporation of the working product.

The originality of the proposed technical solution lies in the fact that the implementation of the baffle visor in the cavity of the transport pipeline behind the inlet pipe ensures the capture of ferromagnetic fluid in the ferromagnetic fluid collector, and the implementation of the electromagnetic device in a separate cavity adjacent to the ferromagnetic fluid collector holds the ferromagnetic fluid inside the ferromagnetic fluid collector. In addition, the electromagnetic device allows you to turn on and off

electromagnetic field in order to discharge the accumulated ferromagnetic fluid from the ferromagnetic fluid collector through the drain pipe into the evaporation tank.

As a result of using this device, the technical task is achieved, namely, the capture of ferromagnetic fluid from the flow of the working product in the pipeline and its removal separately from the working product in a collection tank.

Claims (1)

A device for collecting ferromagnetic fluid in a pipeline, comprising a ferromagnetic fluid collector located under the transport pipeline, characterized in that the device comprises a corner visor welded to the lower generatrix in the pipe cavity and located behind the receiving pipe connected to the ferromagnetic fluid collector made from non-magnetic material, an electromagnetic device in a separate cavity adjacent to a ferromagnetic fluid collector; thermal insulation on the transport pipeline, inlet and outlet pipes with locking elements and a ferromagnetic fluid collector, drainage pipe without thermal insulation, with locking elements and an evaporation tank.