RU61785U1 - DEVICE FOR SUBMITTING REAGENT TO A WELL - Google Patents

Abstract

The utility model relates to the oil industry, in particular to methods for supplying reagents and can be used in oil production. A device for supplying a reagent to a well includes at least one container with a solid reagent of one or different types, which may contain at least one element with at least one carrier of a solid reagent fixed on it, and the carrier has the form cylinder and made of plastic material. The carrier may be placed in a pipe with holes. On the carrier, holes can be made that directly communicate with the elevator space, as well as connecting channels connecting these holes with the outer surface of the carrier. The angle α between the longitudinal axial lines of these holes and connecting channels is sharp or equal to 90 °.

Description

Device for supplying reagent to the well. The utility model relates to the oil industry and can be used in oil production.

The most effective use of reagents that prevent organic and inorganic deposits in the well string is to introduce them into the bottom of the well and supply formation fluid to the stream. A device for supplying a reagent to a well in the form of a module from sections sequentially connected at the ends of sections with a solid reagent of one type or solid reagents of different types placed in each section (patent RU 2277627 C2 E 21 V 37/06, C 09 K 3/00, published 06/10/2006, bull. No. 16). However, this device is quite complex and expensive.

The specified technical solution is the closest in essence to the proposed device for supplying solid reagent to the well.

The technical result of the utility model is to simplify the known device for supplying the reagent to the well, reducing the cost of its manufacture.

The technical result is achieved due to the fact that in a device made of at least one container with a solid reagent of at least one type, the container includes at least one carrier of at least one type of solid reagent, while the carrier has the shape of a cylinder and is made of plastic material.

Figure 1 shows a device for supplying reagent to the well; figure 2 - container; figure 3 - container with holes in the body of the carrier.

The device for supplying reagent to the well includes a container consisting of a carrier 1 with a solid reagent placed inside it, which is placed inside the pipe 2 with holes 3 located on its side walls. While the holes 3 are made on the pipe 2 unevenly. The container (figure 2) may contain at least one element connected to at least one carrier.

The carrier in this embodiment is made of different materials and in the drawing is presented in the form of a metal rod 4 connected to a carrier 1 made of plastic material.

As a plastic material, bitumen or polyethylene, including low or high pressure polyethylene, can be used.

The carrier 1 (figure 3) contains holes 5 intended for direct connection with the downhole space.

The holes 5 are hydraulically connected by connecting channels 6 to the outer surface 7 of the carrier 1.

The angle between the longitudinal axes of the holes intended for direct connection with the downhole space and the connecting channels is designated as α, while α is either equal to 90 ° or is sharp and its apex is directed towards the wellhead, i.e. 0 ° <α≤90 °. The solid reagent is located below the connecting channels and is made with open porosity for passage through it into the lift pipes of the upward flow of the borehole fluid.

However, the solid reagent can be distributed directly in the body of the carrier 1 and washed with formation fluid along with the carrier. In this case, the holes 5 and the connecting channels 6 in the body of the carrier 1 may not be performed.

In order for the solid reagent to be uniformly washed out by the formation fluid as its diameter decreases (the area of the surface being washed) during oil production, the carrier is made in the form of at least two components, one of which is inside the other. Components are performed on the principle of "one in another" (the principle of nesting dolls). In this case, the concentration of the solid reagent in the components of the cylinder is different and increases as the component approaches the longitudinal axis.

The device can be fixed both in the face and on the downhole

equipment.

Thus, in a device for supplying a solid reagent to a well, at least one container with a solid reagent of one or different types is contained, hydraulically connected to the downhole space, the container contains at least one carrier of at least one type of solid reagent having the shape of a cylinder and made of plastic material.

The carrier is made of plastics, in particular polyethylene, which can be low-pressure polyethylene according to GOST 16338 or high-pressure polyethylene according to GOST 16377.

The proposed technical solution is recommended to be used to provide effective protection of deep and surface oilfield equipment from deposits of organic and inorganic origin, solid reagents of different chemical composition, direction of action, from wells with different flow rates, with different methods of oil production and its parameters. It is especially effective when used in high temperature wells with temperatures above 60 ° C.

Polyethylene, possessing the characteristics necessary for a container, is much cheaper than metal, it is easier to process, which reduces the cost of manufacturing the container and reduces the cost of supplying the reagent to the well. The use of a carrier in the form of a cylinder, as well as a cylinder with through holes and connecting channels containing a solid reagent, further simplifies the design and manufacturing technology of the container.

The proposed technical solution is implemented as follows.

The well production rate, water cut and other necessary parameters of the formation fluid are determined and a device with an optimally selected solid reagent is placed in the wellbore.

In the wellbore, the reagent alone or together with the carrier (in high-temperature wells) is dissolved by the flow of formation fluid passing through the specified device, including at least one container connected with lift pipes containing at least one plastic material (bitumen or polyethylene) , one carrier of at least one type of solid reagent.

Thus, the reagent can be in the body of the carrier and dissolve with it, which is typical for formation fluid with a high temperature (over 60 ° C). In addition, the reagent can be carried out by the reservoir fluid separately from the carrier. In this case, connecting channels are made in the carrier, below which a solid reagent is placed.

It should be noted that the holes that directly communicate with the elevator space are made on the carrier, while their longitudinal axis is parallel to the longitudinal axis of the element, which can be used as a metal rod.

The holes can be made through on the carrier, in the form of a cone with peaks located towards the bottom of the well.

When the holes on the carrier that directly communicate with the elevator space are through, the cone is truncated.

The device may contain on the outer surface of the media in front of the entrance to the connecting channels communicating with the recess.

The angle between the longitudinal axes of the holes and connecting channels is variable, and can also decrease in the direction from the bottom to the wellhead.

The proposed device for supplying the reagent to the well is industrially applicable, has novelty and obviously does not follow from the prior art for the average specialist.

Claims (18)

1. Device for supplying reagent to a well, comprising at least one container with solid reagent of one or different types, hydraulically connected to the downhole space, characterized in that said container includes at least one carrier of at least one type solid reagent, while the carrier has the shape of a cylinder and is made of plastic material. 2. The device according to claim 1, characterized in that it contains at least one piece of pipe made with holes, while the carrier is placed inside the pipe. 3. The device according to claim 2, characterized in that the holes on the pipe are made unevenly. 4. The device according to claim 1, characterized in that the carrier is made in the form of at least two components, one of which is inside the other. 5. The device according to claim 4, characterized in that the concentration of the solid reagent in the components is different and increases as the component approaches the longitudinal axis. 6. The device according to claim 1, characterized in that it contains at least one element connected to at least one carrier. 7. The device according to claim 6, characterized in that the element is made in the form of a metal rod. 8. The device according to claim 6, characterized in that the element is located inside the carrier and is connected with it along the entire length. 9. The device according to claim 1, characterized in that bitumen is used as a plastic material. 10. The device according to claim 1, characterized in that the plastic material is polyethylene. 11. The device according to claim 1, characterized in that it contains holes that directly communicate with the elevator space, are made on the carrier, while their longitudinal axis is parallel to the longitudinal axis of the rod. 12. The device according to claim 11, characterized in that the holes are made through the media through. 13. The device according to claim 11, characterized in that the holes have the shape of a cone, while their vertices are located towards the bottom. 14. The device according to item 13, wherein the cone is truncated. 15. The device according to claim 11, characterized in that the holes are hydraulically connected to the outer surface of the carrier by connecting channels, the longitudinal axis of the holes and connecting channels are made at an angle α, with 0 ° <α <90 °, and the apex of the acute angle is directed to the side wellhead. 16. The device according to p. 15, characterized in that it contains recesses on the outer surface of the media before entering the connecting channels in communication with them. 17. The device according to p. 15, characterized in that α is made variable. 18. The device according to 17, characterized in that the value of α decreases in the direction from the bottom to the wellhead.