RU22177U1 - HYDRAULIC PERFORATOR - Google Patents

Abstract

1. Hydroabrasive punch containing a hollow body, guiding jet nozzles (nozzles), a ball valve and a shank, characterized in that it is equipped with an additional ball valve, the body is made sectional, the sections of which are interconnected by an adapter with a sealing seal, the upper section consists of an internal and the outer columns, the inner column is made with symmetrically located holes in its upper part, between which a coupling with a sealing seal and a seating saddle is fixed under a vertical valve with the possibility of sliding vertically inside the column, the upper section in its lower part is provided with a stop in the form of a stop ring with a diameter corresponding to the diameter of the coupling, a shank with a seating seat under the main ball valve is located in the lower section of the housing, while the diameter of the main ball valve less than the inner diameter of the coupling and corresponds to the seat seat in the shank, and the diameter of the additional ball valve is larger than the inner diameter of the coupling and corresponds to the seat seat of the sleeve, jet nozzles placed along the height of the housing in a spiral manner and each of them is directed at an acute angle to the horizontal axis of the housing, the ball valves are hollow with the possibility of changing their weight and internal pressure. 2. The waterjet perforator according to claim 1, characterized in that the angle of inclination of the jet nozzles to the horizontal axis of the housing is 10-45.3. A waterjet perforator according to claim 1, characterized in that the ball valves are made detachable and provided with openings for filling with metal granules and a thermally expanding substance. Guide

Description

Waterjet Punch

The invention relates to mining, in particular, to equipment for processing wells and can be used in the oil and gas industry for opening productive formations in open-hole wells and with casing strings. The greatest application will be found in fields with high pressure reservoir pressure, in the production of which aggressive components I bS and COi are contained and during the opening of formations of high power. Known sandblasting perforator according to the patent of the Russian Federation No. 2078912 class E2IB 43/114, comprising a housing, valve, shank and jet nozzles (nozzles) made with a variable cross-sectional area, mounted horizontally and directed in opposite directions. However, this waterjet perforator has a number of disadvantages:

- the horizontal arrangement of nozzles allows the formation of narrow funnel-shaped horizontally directed channels in the reservoir and does not allow the opening of a large stratum of the reservoir. These horizontal channels (caverns), due to the low speeds and fluid separation into phases (iaj oil), are clogged in the near-hole zone with resins, asphaltenes, paraffins and fracture products. During the exploitation of deposits of especially high-viscosity oils, production sharply decreases up to a full inflow to the face. A similar problem arises with a layered heterogeneous structure of the reservoir with the presence of impermeable layers of the reservoir and, as a result, obtaining a weak inflow of oil or gas or their complete absence. The problem is solved by the significant cost of frequent work to intensify the flow of fluid to the bottom of the wells by known methods involving reagents solvents, special equipment, human resources, etc. In addition, the design of the well-known waterjet perforator does not allow for one round trip about espechit opening large capacity reservoir intervals, reveals an interval for one round-lifting operation does not exceed 1-5 meters. The design of the well-known ball valve in this waterjet perforator does not allow changing its weight depending on the density of the fluid in the well and the surface.

  2 5 CT% S T

E2IB43 / 114

reservoir pressure, which entails high costs for the selection of the appropriate material and additional costs for extracting the ball valve in wells with low flow rate and low reservoir pressure. The technical task of the proposed invention is to expand the technological capabilities of a waterjet perforator. The stated technical problem is solved due to the fact that in a waterjet perforator containing a hollow body, guiding jet nozzles, a ball valve, the hollow body is made sectional, the sections of which are interconnected by an adapter with a sealing seal, the upper section consists of inner and outer columns, an inner column made with symmetrically located holes in its upper part, between which a clutch with a sealing seal and a seating seat under filling ball valve and the ability to slide vertically inside the column, the upper section in its lower part is provided with a stop in the form of a stop ring with a diameter corresponding to the diameter of the coupling, a shank with a seating seat under the main ball valve is located in the lower section of the housing, while the diameter of the main ball the valve is smaller than the internal diameter of the coupling and corresponds to the seat seat in the shank, and the diameter of the additional ball valve is larger than the internal diameter of the coupling and corresponds to the seat seat of the coupling, s Ruino nozzle has adjustment body helically and each of them is directed at an acute angle to the horizontal axis of the body, ball valves are made hollow to vary their weight and internal pressure. The angle of inclination of the jet nozzles to the horizontal axis of the housing is 10 ° -45 °. Ball valves are detachable or provided with an opening for filling with metal granules and a thermally expanding substance. Depending on the thickness of the formation, the body of the waterjet punch has several sections similar to the upper section, while the diameter of the additional ball valve is less than the inner diameter of each upper section and corresponds to the landing seat of the last of the upper sections of the body. When the angle of inclination is less than 10 °, the depth of the cut-through slit of the channel increases;

substances. At an angle of inclination of more than 45, the depth of development of the reservoir decreases sharply. The execution of jet nozzles arranged in a spiral spiral relative to each other and directed upward at an angle of 10-45 to the horizontal axis of the housing ensures cutting inclined slots - channels that overlap a large height of the formation or several thin layers, which activates (reveals) a large thickness of the reservoir. In addition, the oblique arrangement of the channel slots allows particles, typically colmatizing / clogging / horizontal channel slots, to flow down an inclined to the holes in the wellbore and carried to the surface with products. The implementation of ball valves with the possibility of changing their weight for wells with different reservoir pressures by loading inside, for example, lead pellets and increasing the compressive strength by introducing a component expanding at high temperatures such as alcohol, gas and others, increases the valve's safety at high reservoir pressures. The execution of ball valves with hollow, detachable, and variable in weight depending on the depth allows them to be removed to the surface even with a small debit of the reservoir being opened and prevents the cost of its extraction by special pumping of the liquid under high pressure through the annulus or to lift the pipe string.

In FIG. 1 shows a sectional view of a waterjet perforator in a first waterjet cycle.

In FIG. 2 shows a waterjet perforator in a second waterjet cycle. The waterjet perforator contains a hollow body consisting of an upper section 1, a lower section 2, connected by an adapter 3 with a sealing seal 4, the upper section 1 consists of an outer column 5 and an inner column 6, the inner column b is made with symmetrical holes 7 located in it the upper part, between the holes 7, with the help of the middle screws 8, a coupling 9 is fixed with a sealing seal 10 and a seating seat under an additional ball valve 11 and can be vertically slid inside the column 6, hnyaya section 1 at its lower part is provided with

emphasis 12 in the form of a stop ring, with a diameter corresponding to the diameter of the coupling 9, the lower section of the housing is equipped with a shank 13 with a seat for the main ball valve 14. The diameter of the main ball valve 14 is less than the inner diameter of the sleeve 9 and corresponds to the seat in the shank 13, and the diameter additional ball valve 11 is larger than the inner diameter of the sleeve 9 and corresponds to the seat seat in the sleeve 9. The upper section 1 and the lower section 2 have jet nozzles 15 placed along the height of the entire body in a spiral fashion and each of them It is directed at an acute angle of 10 ° -45 ° to the horizontal axis of the housing and ball valve and 14 are detachable or hollow with an opening for filling with metal granules and intumescent substance. The housing of the waterjet perforator with its upper section 1 is mounted on the string of pump-compressor pipes (tubing) 16 using an adapter 17. The waterjet perforator works as follows:

A waterjet perforator on a tubing string 16 is installed in the well opposite the interval to be waterjet. A ball valve 14, the diameter of which is smaller than the internal diameter of the sliding sleeve 9, is lowered into the lower section of the punch and the hydroabrasive mixture, for example, sand and water, is supplied under pressure (Fig. 1). Moreover, since the sliding sleeve 9 covers the openings 7, the waterjet mixture with a high speed of 180-200 m / s flows out of the jet nozzles 15 only of the lower section 2. By known technology and estimated time, the slits in the column, cement stone and rock are cut the interval opposite the nozzles of the lower section. After the first cycle of waterjet processing, a ball valve 11 is lowered into the perforator, the diameter of which is larger than the ball valve 14 and the internal diameter of the sliding sleeve 9 (Fig. 2.). After the ball valve 11 is inserted into the saddle of the sliding sleeve 9, the pressure is raised to the calculated one (100-200 kg / cm) and the mounting screws are cut 8. After cutting the mounting screws 8, the sliding sleeve 9 together with the ball valve 2 moves down to the stop against the stop ring 12. Dissociation of the internal space of the upper section of the waterjet punch from the bottom

provided by a ball valve 11 and a sealing seal 10. When moving the sliding sleeve 9 downward, openings 7 open and the waterjet mixture in the space between columns 1 and 2 enters the jet nozzles 15 of the upper section. Then, also using well-known technology and estimated time, the formation is opened in front of the upper section of the punch. After the second cycle of waterjet processing, the well is thoroughly washed from the products of destruction and abrasive particles. Then, the ball valves 11 and 14 are removed to the surface by backwashing and the well is left to spout. If necessary, opening a reservoir power greater than the length of two sections in the design of a hydraulic perforator includes one or two sections similar to the upper one. The diameter of the additional ball valve is less than the inner diameter of each upper section and corresponds to the landing seat of the last of the upper sections of the housing.

The proposed design of a waterjet perforator has a number of advantages over the known. Its design is much simpler and more reliable during operation. Its technological capabilities are expanding: the power of opening the formation is provided 2–5 times more in one round trip operation than with the known structures. Well productivity is increased by 2 to 3 times. The process of work is accelerated and the costs associated with additional well killing and tripping are reduced. The economic effect of the use of the proposed design in fields with AVPD will be 1300 - 1350 thousand rubles. on I well / treatment.

CLAIM

1. Hydroabrasive punch containing a hollow body, guiding jet nozzles (nozzles), a ball valve and a shank, characterized in that it is equipped with an additional ball valve, the body is made sectional, the sections of which are interconnected by an adapter with a sealing seal, the upper section consists of an internal and the outer columns, the inner column is made with symmetrically located holes in its upper part, between which a coupling with a sealing seal and a seating saddle is fixed under a vertical valve with the possibility of sliding vertically inside the column, the upper section in its lower part is provided with a stop in the form of a stop ring with a diameter corresponding to the diameter of the coupling, a shank with a seating seat under the main ball valve is located in the lower section of the body, while the diameter of the main ball valve is smaller the inner diameter of the coupling and corresponds to the seat seat in the shank, and the diameter of the additional ball valve is larger than the inner diameter of the coupling and corresponds to the seat seat of the coupling, jet nozzles placed along the height of the body in a spiral manner and each of them is directed at an acute angle to the horizontal axis of the body, the ball valves are hollow with the possibility of changing their weight and internal pressure. 2 ... Hydroabrasive punch according to claim 1, characterized in that the angle of inclination of the jet nozzles to the horizontal axis of the housing is 10 () - 45 °.

. The waterjet perforator according to claim 1, characterized in that the ball valves are made detachable or provided with openings for filling with metal granules and a thermally expanding substance.

4- . The waterjet perforator according to claim 1, Ј} 3 characterized in that, depending on the formation thickness to be uncovered, its casing is made with several sections similar to the upper section, while the diameter of the additional ball valve is smaller than the inner diameter of each upper section and corresponds to the landing seat of the last of the upper sections corps.

Claims (4)

1. Hydroabrasive punch containing a hollow body, guiding jet nozzles (nozzles), a ball valve and a shank, characterized in that it is equipped with an additional ball valve, the body is made sectional, the sections of which are interconnected by an adapter with a sealing seal, the upper section consists of an internal and the outer columns, the inner column is made with symmetrically located holes in its upper part, between which a coupling with a sealing seal and a seating saddle is fixed under a vertical valve with the possibility of sliding vertically inside the column, the upper section in its lower part is provided with a stop in the form of a stop ring with a diameter corresponding to the diameter of the coupling, a shank with a seating seat under the main ball valve is located in the lower section of the housing, while the diameter of the main ball valve less than the inner diameter of the coupling and corresponds to the seat seat in the shank, and the diameter of the additional ball valve is larger than the inner diameter of the coupling and corresponds to the seat seat of the sleeve, jet nozzles placed along the height of the body in a spiral manner and each of them is directed at an acute angle to the horizontal axis of the body, the ball valves are hollow with the possibility of changing their weight and internal pressure. 2. Waterjet perforator according to claim 1, characterized in that the angle of inclination of the jet nozzles to the horizontal axis of the housing is 10-45 ^o .  3. Hydroabrasive punch according to claim 1, characterized in that the ball valves are made detachable and provided with holes for filling with metal granules and a thermally expanding substance. 4. Hydroabrasive punch according to claims 1 to 3, characterized in that, depending on the revealed power of the formation, its casing is made with several sections similar to the upper section, while the diameter of the additional ball valve is smaller than the inner diameter of each upper section and corresponds to the landing seat of the last of upper sections of the body.