RU2175713C1 - Process of opening of productive pool - Google Patents

Abstract

FIELD: oil industry. SUBSTANCE: process of opening of productive pool includes formation of perforation conduits in pipe which is part of casing string prior to its sinking into well and installation of plugs of material easily removed by exposure to chemical substance in conduits. Casing string is sunk into well with positioning of pipe with plugs in opposition to productive pool. Casing string is pressure grouted. Tubing string is sunk into casing string. Well is washed, chemical substances are pumped into zone of arrangement of plugs and well sucker-rod pump is lowered. Body of well sucker-rod pump or lock support of well sucker-rod pump are sunk on tubing string before well washing and pumping of chemical substance into well. When these operations are completed body of well sucker-rod pump or its lock support are raised to depth planned for operation. Level of fluid in well is reduced to specified value of needed depression. Then plunger of pump is lowered on rods and after time required for dissolution of plugs by chemical substance well is put in production. EFFECT: formation of controlled depression on productive pool and prevention of penetration of well fluid into pool, raised efficiency of clearing of pool.

Description

 The invention relates to the oil industry, namely to the opening of productive formations of oil and gas wells.

 A known method of opening the reservoir by creating perforation channels in the casing string, cement stone and formation (1).

 The disadvantage of this method is that when performing sandblasting in the created channel high pressures are formed that contribute to the destruction of cement stone, increase fluid filtration and are one of the main reasons for watering wells.

 The closest in technical essence to the proposed one is a method of opening a reservoir, including the creation of perforation channels in the pipe, which is part of the casing string, before lowering it into the well and installing plugs of easily removable material under the influence of a chemical substance in the channels, lowering the casing into the well with the location of the pipe with plugs opposite the reservoir, cementing, lowering the inside of the casing tubing, flushing the well, pumping a chemical into the location zone plugs and descent of the deep pump (2).

 The known method has the following disadvantages.

 After dissolving the plugs with a chemical substance, the destruction of the cement stone opposite the holes is carried out by creating excessive pressure or lowering the liquid level. In this case, unregulated depression occurs, which may be either insufficient or unnecessary. This can lead to waterlogging of well production or to insufficient cleaning of the bottomhole zone of the reservoir.

 In addition, there is a significant time gap between the depressurization operations of the formation and the launch of the well into operation. The fact is that first the tubing string is lowered into the well, the well is washed, technical hydrochloric acid is pumped and after the depressurization, the tubing string is lifted, and then the downhole pump is lowered and the well is put into operation. During these tripping operations, the reservoir is saturated with a kill fluid, which subsequently reduces the flow rate of the well and increases the time it takes to put the well into operation.

 The objective of the invention is the creation of technology that provides controlled depression on the reservoir and prevents the ingress of well fluid into it, as well as increasing the efficiency of cleaning the bottom-hole zone of the reservoir.

 This problem is solved by the proposed method, including the creation of perforation channels in the pipe, which is part of the casing string, before lowering it into the well and installing plugs of easily removable material under the influence of a chemical substance in the channels, cementing, tubing running inside the casing, flushing the well, pumping chemical substance in the area of the stubs and the descent of the deep pump.

 What is new is that the deep pump is lowered onto the tubing into the well before flushing and injection of the chemical substance, and after these operations, the deep pump is raised to the planned depth for operation and the liquid level in the well is reduced to a predetermined value (the required depression value), then on the rods the pump plunger is lowered and after the time required to dissolve the plugs with a chemical substance, the well is put into operation.

 The method is as follows.

 Depending on the depth of the face, occurrence and thickness of the reservoir, the length of the pipe to be perforated is determined, after which channels are created on the latter by drilling through holes perpendicular to the axis of the pipe with a diameter of 20-30 mm. In order to maintain the strength of the pipe, the holes are arranged in a spiral.

 The perforation density (the number of holes per linear meter) determines the coefficient of hydrodynamic perfection of the opening and, depending on the diameter of the holes, no more than the cumulative perforation density for a given oil field can be taken. Then, bushings are inserted into the holes, welded to the pipe and screwed into them on the thread plugs made of magnesium alloy (for example, ML-2). The casing string is lowered into the well so that the pipe with plugs is opposite the reservoir. Then casing is cemented using conventional technology. After the cement slurry is set inside the casing, the tubing is lowered with the deep sucker-rod pump housing (or with a lock support in the case of an inserted sucker-rod pump) and the well is washed, and then technical hydrochloric acid is pumped into the area of the magnesium plugs in the volume necessary only for dissolving the plugs.

 After acid injection, the body of the submersible pump is raised to the planned depth for operation and the liquid level in the well is reduced by an amount that provides the necessary depression on the reservoir by swabbing (or by compressor). Then, the pump plunger is lowered on the rods and after the time required to dissolve the plugs with acid, which equals ≈ 8-10 hours, the well is put into operation. After injection of hydrochloric acid in the area of the plugs, a thermochemical reaction with magnesium occurs, as a result of which the plugs completely dissolve. Due to the pressure difference between the reservoir and the bottomhole, there is a sharp release of fluid and with it clogged the pores of the formation substances. In this case, a deep depression is achieved on the reservoir and a high level of cleaning of the bottom-hole zone of the formation, since the magnitude of the depression can be created practically any way and only the strength characteristics of the casing string, cement ring and rock skeleton of the reservoir can be a limitation here.

 To expand the scope of the proposed method, you can use plug-in sucker-rod pumps with anti-gushing device for tubing (see RD 39-01470-585-069-91 "Instructions for underground repair of wells equipped with modernized plug-in pumps", Almetyevsk, 1991 ), which will allow future repairs to be carried out without jamming.

 Using the proposed method allows you to create an adjustable depression on the reservoir, which provides effective cleaning of the bottomhole zone of the reservoir from filtrate and mechanical impurities, taking into account its geological structure (the presence of bottom water, the thickness of the clay layer between the aquifer and oil reservoirs, reservoir pressure, etc.). The method almost completely eliminates the ingress of well fluid into the reservoir. An important factor is also that the reaction time of hydrochloric acid with magnesium is combined with the time of preparation of the well for operation.

Information used
1. The analogue. A.S. N 599057, MKI E 21 B 43/11, 1974.

 2. The prototype. RF patent N 1030537, MKI E 21 B 43/11, 1983.

Claims (1)

 A method of opening a reservoir, including the creation of perforation channels in the pipe, which is part of the casing string, before lowering it into the well and installing plugs of easily removable material under the influence of a chemical substance in the channels, lowering the casing string into the well with a pipe with plugs opposite the reservoir , cementing, casing tubing string casing inside the tubing, flushing the well, pumping a chemical into the plug location zone and lowering the depth a sucker rod pump, characterized in that before flushing and pumping the chemical into the well, the tubing of the deep sucker rod pump or the lock support of the plug-in sucker rod pump is lowered on the tubing, and after these operations, the body of the sucker-rod pump or the lock support of the plug-in deep pump is raised to the planned depth for operation and reduce the liquid level in the well to a predetermined value of the necessary depression, then on the rods lower the pump plunger and after webbings required for dissolving plugs a chemical trigger well into production.