RU184803U1 - Wellhead FILTER FOR NEUTRALIZATION OF ACID - Google Patents

Abstract

The utility model relates to the field of production, collection and preparation of liquid and gas products and can be used at oil and gas producing and oil and gas refining or other enterprises where work is carried out to select liquid from wells after various acid treatments. The wellhead acid neutralization filter contains a funnel with an external diameter D = 90 mm and a connecting internal thread D = 73 mm from the installation side of the granular magnesium container and an external diameter D = 60 mm along the entire length of the funnel, a granular magnesium container with an external diameter D = 73 mm and external threads D = 73 mm on both sides for connecting a funnel and a connecting sleeve, a connecting sleeve with an external diameter of D = 90 mm and with internal threads of D = 73 mm at both ends to connect a container for granulation magnesium and a connecting pipe for a high pressure hose, a connecting pipe for a high pressure hose with an outer diameter of D = 73 mm and a connecting external thread of D = 73 mm under the coupling. 4 s.p. f-ly, 2 ill.

Description

The utility model relates to the field of extraction, collection and preparation of liquid and gas products and can be used at oil and gas producing and oil and gas refining or other enterprises where work is carried out to select liquid from wells after various acid treatments.

A known filter containing a perforated housing, a layered filter element based on a granular filler and a coating of fleecy material (AS No. 587242 of the USSR, ЕВВ 43/08, 1978).

The disadvantage of the filter is the inefficient use of the volume of the layered filter element, since in its surface there is a retention of mechanical impurities.

Known wire multilayer filter containing a perforated frame, layers of longitudinal support metal tapes on the frame with decreasing thickness from the outer to the inner layer and the windings of round wire, wound around each layer of tapes with the location of the turns of each subsequent winding between the turns of the previous winding (A.S. No. 927058 USSR, U21 43/08, 1982).

The disadvantages of the filter are, a short service life due to the rapid clogging of the gaps between the turns of round wire, the instability of the dimensions of the slots due to the low rigidity, as well as the complexity and complexity of manufacturing.

A known filter containing a perforated frame, on which the main and additional layers of filter elements are arranged concentrically in the form of plastic disks of variable and uniform thickness with a central hole, forming slots and channels between each other (A.S. No. 1530759 USSR, ЕВВ 43/08, 1989 )

The disadvantages of the filter are the increased pressure loss due to the high ratio of the length of the slits to their width, the unsatisfactory cleaning fineness determined by the width of the slots, and also low dirt holding capacity.

Well-known filters consisting of a perforated body and a set of flat corundum circles (A.S. No. 981592 USSR, E21B 43/08, 1982) or plastic plates of different thicknesses (A.S. No. 1530759 USSR, E21B 43/08, 1989), located between the clamping and centering rings and forming slots for fluid movement.

The disadvantages of these filters are low throughput due to the low filtration area equal to the total width of the slots, as well as the complexity and complexity of the design.

However, the known devices are difficult to manufacture, are characterized by significant metal consumption and high cost, and are also not applicable when conducting well development after various acid treatments.

The inventive device has a relatively simple design, low weight, does not require large labor costs and special training during installation and dismantling.

The task to which the claimed utility model is directed is to reduce material and labor costs for well repairs.

The technical result of the utility model is to improve the quality of well development after acid treatments, partial neutralization of hydrochloric acid contained in the selected products directly at the wellhead.

A utility model is illustrated in the figures.

In FIG. 1 shows a diagram of the device (funnel (1), a container for granular magnesium (2), a connecting sleeve (3), a connecting pipe for a high pressure hose (4), a clamp for fixing the high pressure hose (5), high pressure hose (6) )

In FIG. 2 shows a General view of the device on the wellhead equipment.

The device consists of the following elements:

1 - funnel with an external diameter D = 90 mm and connecting internal thread D = 73 mm from the installation side of the container for granular magnesium and an external diameter D = 60 mm along the entire length of the funnel (1), 2 - container for granular magnesium with an external diameter D = 73 mm and external threads D = 73 mm on both sides for connecting the funnel (1) and connecting sleeve (3), 3 - connecting sleeve with an external diameter of D = 90 mm and with internal threads of D = 73 mm at both ends for connection granular magnesium container (2) and coupling agent a tube for a high-pressure hose (4), 4 - a connecting pipe for a high-pressure hose with an outer diameter of D = 73 mm and a connecting external thread of D = 73 mm under the coupling.

In the process of developing the well with sucker rod pumps using trough tanks, after acid treatments of the bottom hole of the formation, the wellhead is equipped with one of the following images. A high pressure hose (6), the free end of which is installed in the groove tank (7), is fastened to the corner valve (8) of the wellhead fittings (9) using a quick disconnect connection (10). The fluid rises from the pump to the wellhead due to the reciprocating movement of the string of pump rods, to the mouth of the well the rise occurs along the string of tubing, and then through the high pressure hose (6) enters the groove tank (7). Subsequently, the liquid is collected and transported from the gutter tank using special equipment (oil carriers) and transported to oil product discharge points. The formation fluid raised to the surface during development is a mixture of oil, produced water and hydrochloric acids injected during the implementation of the EOR; the hydrogen index during development is Ph = 0.

In the case of fluid collection in the gutter during the development of the well after acidic treatments of the bottom-hole zones of the formation, without using a wellhead filter to neutralize the acid, the subsequent neutralization of hydrochloric acid is carried out directly at the oil discharge points using complex technological processes, which leads to an increase in the operating costs of the enterprise.

Due to the use of a wellhead filter during the well development to neutralize the acid filled with magnesium granules, the hydrochloric acid is neutralized directly at the wellhead.

The assembly and installation of the wellhead filter for neutralizing acid occurs as follows: before starting the well development process with sucker rod pumps using trough tanks, after acidizing the bottom hole of the formation, to the angle valve (8) of the wellhead valve (9) using a quick-disconnect connection ( 10) fasten the high pressure hose (6). A connecting pipe (4) is mounted on the free end of the high-pressure hose (6) and secured with clamps (5). Next, the filter is assembled: the funnel (1) and the coupling (3) are screwed to the granular magnesium container (2). Holding the filter in an upright position (funnel pointing down), the container (2) is filled with granular magnesium. After filling the container, the filter is screwed onto the connecting pipe (4), which, in turn, is connected to the high pressure hose (6) using a coupling (3). After assembly, the filter is installed in the trough (7). The high pressure hose (6) is attached to the gutter tank (7) with a special mount (11).

The device operates as follows.

In the process of well development with deep-well pumps, the liquid rises from the pump to the wellhead due to the reciprocating movement of the string of pump rods, and then through the high-pressure hose (6) connected to the angle valve (8) of the wellhead valve (9) using a quick-disconnect connection ( 10), enters the trough container (7).

The formation fluid raised to the surface, which is a mixture of oil, produced water and hydrochloric acids injected during the PNP with a pH value of Ph = 0, flows through a wellhead filter for neutralizing acid, filled with granular magnesium, installed on the high-pressure hose (6). As a result of the interaction of formation fluid with granules of magnesium, hydrochloric acid is neutralized. Through the installed funnel (1), the fluid enters the trough (7). Subsequently, the liquid is collected and transported from the gutter tank using special equipment (oil carriers) and transported to oil product discharge points.

The advantages of the claimed utility model are: 1) simple design, low weight, does not require large material costs for manufacturing and special training during installation and dismantling; 2) the presence on the constituent elements of special "ears", which allows for installation and dismantling, without the use of special tools. 3) a granular magnesium container can be made in lengths from 500 mm to 700 mm, depending on customer requirements; 4) the use of granular magnesium allows you to neutralize hydrochloric acid directly at the wellhead.

Claims (5)

1. Wellhead filter for acid neutralization, including a cylindrical container with an external diameter D = 73 mm with connecting external threads D = 73, a funnel with an external diameter D = 90 mm and connecting internal thread D = 73 mm from the installation side of the granular magnesium container and an outer diameter of D = 60 mm along the entire length, a connecting sleeve with an outer diameter of D = 90 mm and with internal threads D = 73 mm at both ends, a connecting pipe for a high pressure hose with an outer diameter of D = 73 mm and a connecting external thread D = 73 mm under the coupling. 2. The device according to p. 1, characterized in that it has a simple structure. 3. The device according to p. 1, characterized in that it has special "ears" on the components, which allows for installation and dismantling without the use of special tools. 4. The device according to claim 1, characterized in that, due to the simplicity of the design, it is possible to carry out an audit directly at the installation site, without requiring special training. 5. The device according to p. 1, characterized in that the container for granular magnesium can be made in lengths from 500 mm to 700 mm, depending on customer requirements.

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