RU51097U1 - SAND FILTER - Google Patents

Abstract

The utility model relates to the oil industry and can be used in devices that prevent sand from entering downhole equipment. The anti-sand filter contains a housing, in the upper part of which there are openings for the entry of formation fluid. A pipe with a screw is installed inside the housing. On the surface of the pipe in its lower part in the zone of the last turn of the screw holes are made, communicating the internal space of the casing with the internal space of the pipe. The last turn of the screw ends with a partition installed along the radius and restricting the possibility of the formation fluid moving with a slotted hole between the partition and the body. In the lower part of the body there is a sand collector. A sand filter provides a high degree of fluid purification.

Description

The utility model relates to the oil industry and can be used in devices that prevent sand from entering downhole equipment.

Known sand filter, consisting of concentrically located outer, intermediate and inner pipes. The inner pipe has holes located along a helical line, opposite which a screw is installed inside the pipe, made of a filter mesh (RF patent No. 2158358, IPC 7 E 21 V 43/08, publ. 2000).

This filter design is complex and laborious to manufacture, because the connection of the mesh screw with a perforated pipe is a rather complicated technological problem.

Known anti-sand filter, consisting of a housing and a pipe installed inside it with a screw. The cleaned formation fluid enters the filter through the holes in its upper part and enters the auger. During the circulation movement along the screw under the action of centrifugal forces, the fluid separates: mechanical impurities are concentrated at the external boundary of the screw. In the lower part of the screw, heavy particles fall under the influence of gravitational forces, and a much lighter fluid enters the inner pipe and then to the wellhead (utility model No. 46534, IPC 7 E 21 V 43/08, publ. 2005). This technical solution is taken as a prototype.

The known device does not provide a sufficiently complete cleaning of the reservoir fluid. In the lower part of the screw under the influence of gravity does not completely separate the sand from the fluid. The lightest particles of sand, picked up by the swirls of the stream, are carried to the surface.

The problem to be solved when creating the proposed utility model is to improve the quality of treatment of reservoir fluid.

The task is implemented in a technical solution, the essence of which is as follows. The anti-sand filter contains a housing, in the upper part of which there are openings for the entry of formation fluid. A pipe with a screw is installed inside the housing. On the surface of the pipe in its lower part in the zone of the last turn of the screw holes are made, communicating the internal space of the casing with the internal space of the pipe. The last turn of the screw ends with a partition installed along the radius and restricting the possibility of the formation fluid moving with a slotted hole between the partition and the body. In the lower part of the body there is a sand collector.

The technical solution is illustrated in the drawing. Figure 1 presents the sand filter.

The anti-sand filter contains a housing 1, inside of which a pipe 2 with a screw 3 is installed. In the upper part of the housing there are inlet openings 4 for entering the reservoir fluid inside the housing. On the surface of the pipe 2 in its lower part in the zone of the last turn of the screw holes 5 are made, communicating the internal space of the housing 1 with the internal space of the pipe 2. The last turn of the screw 3 ends with a partition 6 installed along the radius. This partition closes the space between adjacent turns of the screw and the pipe, but leaves a slot hole 7 near the housing. In the lower part of the body there is a sand collector 8.

Sand filter works as follows. The formation fluid through the inlet 4 penetrates into the housing 1 and enters the auger 3. Moving along the screw surface of the screw, the formation fluid experiences the action of centrifugal forces, while it is separated and mechanical impurities are concentrated along the outer boundary of the screw. The longer the screw, the greater the difference in concentration

mechanical impurities along the radius of the filter. The last turn of the screw ends with a baffle 6, restricting the possibility of movement of the formation fluid with a slit hole 7 between the baffle and the body. In this part of the filter, the first phase of formation fluid separation occurs. Pure fluid located near the surface of the pipe 2, through the holes 5 enters the pipe and then to the wellhead. A fluid with a high content of impurities that collects on the periphery of the screw passes through the slot hole 7. Next, the second stage of separation of the formation fluid begins. Under the influence of gravitational forces, sand particles, as heavier ones, fall down and gather in the sand collector 8, and the pure fluid enters the pipe and then to the wellhead. Sand collector 8 is periodically cleaned from accumulated mechanical impurities.

Thus, the separation of mechanical impurities in the filter takes place in two stages: at the first stage, most of the pure fluid is selected under the action of centrifugal forces, and at the second stage, the final separation of sand from the remaining part of the reservoir fluid occurs as a result of gravitational forces. This provides a high degree of fluid purification.

Claims (1)

An anti-sand filter containing a housing with inlet openings in its upper part and a pipe with a screw installed inside the housing, characterized in that holes are made on the surface of the pipe in its lower part in the area of the last turn of the screw, communicating the internal space of the housing with the internal space of the pipe, on the last turn of the screw along the radius, a partition is installed that forms a slit hole with the housing, and a sand collector is attached to the lower part of the housing.