RU2188305C1 - Method of producing formation tapping - Google Patents

Abstract

FIELD: oil and gas producing industry. SUBSTANCE: selected for tapping is formation with low pressure. Well is cased and annular space is cemented. Well is filled with fluid to exceed formation pressure by hydrostatic one. Bottom hole is filled with aqueous solution of surfactant with intensifying component. Longitudinal slots are provided in casing within interval of producing formation. After formation of longitudinal slots, tapping jet fluid for washing out of cavern in annular space is used in the form of aerated aqueous solution of surfactant having intensifying component with aeration degree of 0.5-1.5 cu.m/min. Speed of jet nozzle motion is maintained within 15-25 mm/min with flow rate of jet fluid of 2-3 l/s and fluid pressure at wellhead of 12-15 MPa. After washing out of cavern in annular space, time is allowed for process completion, and well is completed. EFFECT: higher productivity of wells in zone of formations with low formation pressure.

Description

 The invention relates to the oil and gas industry and can be used for opening wells.

 There is a known method of well completion, according to which an aqueous solution of a foaming surfactant with the addition of a blowing agent is pumped into a sump well into a well that has been completed by drilling and cased by a casing string. As the latter use an aqueous solution of ammonium carbonate or bicarbonate, or an aqueous solution of urea. As the surfactant, sulfanol or polyethylene glycol ethers of alkyl phenols are used. Next, the drill string is pressed to the lower holes of the perforation interval, stable foam is pumped into the perforation zone, the perforator is lowered and the drill string is lumbered. In the process of inflow induction, a gradual decrease in repression to the formation occurs and the necessary depression is achieved to displace the solid phase and drilling fluid into the borehole (ed. St. USSR 1418468, class E 21 B 43/00, publ. 23.08.88).

 The known method does not allow to develop wells with achieving high productivity in the zone of reservoirs with low reservoir pressure.

 Closest to the invention in technical essence is a method of well completion, according to which a well is drilled up to the top of a producing formation, a water-monitoring unit is placed in it and a horizontal disk-shaped cavity is formed by a gas-liquid jet. Remove the hydraulic monitor. A production casing is introduced into the well and hardening material is fed into the annulus and the cavity formed. Then plugs of this material are drilled and the well is buried in the reservoir. Then, a hydraulic monitor is again placed in the well and erosion of vertical radial slots in the borehole zone of the producing formation is carried out. The length of each gap is taken less than the radius of the cavity. In this case, collapse of the overlying rocks in these crevices and fluid flow is excluded (ed. St. USSR 1395813, CL. E 21 B 43/25, publ. 05.15.88 - prototype).

 The known method allows you to master only not cased in the interval of the reservoir. In addition, when developing wells in the zone of reservoirs with low reservoir pressure, it is not possible to achieve high productivity.

 The proposed method solves the problem of achieving high productivity of wells in the zone of reservoirs with low reservoir pressure.

The problem is solved in that in the method for opening a productive formation, including the formation of longitudinal gaps and erosion of the annular cavity by a jet of liquid opening fluid, according to the invention, a formation with a reduced reservoir pressure is selected for opening, the well is cased and cemented, the annulus is filled, before the formation of longitudinal gaps, the well is filled with liquid up to the excess of the hydrostatic pressure over the reservoir, the bottom of the well is filled with an aqueous solution of a surfactant with intensifying component in the casing is forced into the productive formation interval of longitudinal slots, after the formation of longitudinal cracks as a jetting fluid opening at the cavity annulus washout using an aerated aqueous solution of a surfactant with an intensifying component with the aeration amount of 0.5-1.5 m ³ / m, the velocity of the nozzle is maintained within 15-25 mm / min at a flow rate of the monitor fluid of 2-3 l / s and the pressure of the fluid at the wellhead 12-15 MPa, after erosion caverns produce technological exposure and well development.

The features of the invention are:
1. the formation of a longitudinal gap;
2. erosion of the annular cavity with a hydro-jet jet of opening fluid;
3. for opening, the choice of a reservoir with a low reservoir pressure;
4. casing and cementing the annulus of the well;
5. before the formation of longitudinal gaps, filling the well with liquid until the hydrostatic pressure exceeds the reservoir pressure;
6. before the formation of longitudinal gaps, filling the bottom of the well with an aqueous solution of a surfactant with an intensifying component;
7. punching in the casing in the interval of the reservoir of longitudinal slits;
8. after the formation of longitudinal gaps as a hydromonitor opening fluid when the annular cavity is washed out, the use of an aerated aqueous solution of a surfactant with an intensifying component with an aeration degree of 0.5-1.5 m ³ / m;
9. The speed of movement of the nozzle within 15-25 mm / min at a flow rate of the monitor fluid of 2-3 l / s and the pressure of the fluid at the wellhead 12-15 MPa;
10. carrying out technological exposure;
11. well development.

 Signs 1 and 2 are common with the prototype, signs 3-11 are the essential distinguishing features of the invention.

SUMMARY OF THE INVENTION
When developing a well that has uncovered a reservoir with a low reservoir pressure, it is far from always possible to achieve high productivity. The proposed method solves the problem of achieving high productivity of wells in the zone of reservoirs with low reservoir pressure. The problem is solved by the following set of operations.

When opening the reservoir, select a reservoir with reservoir pressure, usually reduced by at least 3 MPa compared to the initial reservoir pressure. A well is cased and cemented annular space. The well is filled with liquid until the hydrostatic pressure exceeds the reservoir pressure, as a rule, by 0.5-1.0 MPa. Such an excess is necessary for spontaneous flow of the wellbore fluid into the bottomhole zone during the formation of a hydrodynamic connection with the formation during these operations. The bottom of the well is filled with an aqueous solution of a surfactant with an intensifying component, mainly in an amount of 1.5-2.5 m ³ . Longitudinal slits are pressed in the casing in the interval of the producing formation, which provide a larger contact surface with the formation than conventional perforation. The slotting of the longitudinal slits is carried out by a hydrodynamic punch. Punching eliminates the impact of cement on the annular space and thereby save it from destruction. After the formation of a hydrodynamic connection with the formation, an aqueous solution of a surfactant with an intensifying component enters the bottomhole zone of the well. Depending on the type of collector, a compound that actively contributes to an increase in permeability of the bottom-hole zone is selected as an intensifying component. For the carbonate reservoir, the intensifying component is hydrochloric acid, for the terrigenous reservoir, clay, i.e. a mixture of hydrochloric and hydrofluoric acids, for a clayed collector - a proppant, for example, potassium chloride, etc. Concentrations are selected depending on the composition of the collector in the range from 1 to 28%. As a surfactant, water-soluble surfactants are used, for example, sulfanol or polyethylene glycol ethers of alkyl phenols in an amount of 0.01-5.0%. Through the formed cracks in the casing, erosion of the annular cavity is carried out using a hydromonitor jet of dissection fluid. For this, an aerated aqueous solution of a surfactant with an intensifying component with an aeration degree of 0.5-1.5 m ³ / m is injected into the slot through a hydraulic nozzle. The speed of movement of the nozzle along the slit is maintained within 15-25 mm / min at a flow rate of the monitor liquid of 2-3 l / s and the pressure at the wellhead 12-15 MPa. The use of an aqueous solution of a surfactant with an intensifying component allows to maximally wash the bottom-hole zone of the well from contaminants and drilling fluid and thereby maximize its productivity. Quantitative indicators of the regimes are determined based on production conditions. After erosion of the annular cavity, technological exposure is performed for 20-30 hours for reaction. Next, develop the well.

Concrete example
When a productive formation is opened in an oil well, a reservoir with a carbonate reservoir of the Devonian horizon 3 m thick with a reservoir pressure of 20 MPa is selected. The initial reservoir pressure was 23.7 MPa. A well is cased and cemented annular space. They increase the liquid level in the well, i.e., fill the well with liquid until the hydrostatic pressure exceeds the reservoir pressure by 0.75 MPa. A hydrodynamic hammer drill is lowered into the well on a tubing string. The bottom of the well is filled with 2.0 m ^{3 of a} 0.5% aqueous solution of a surfactant — sulfanol with an intensifying component — a 10% aqueous solution of hydrochloric acid. Three longitudinal slits of 3 m in length are pressed in the casing string in the interval of the producing formation. The pressure in the well and formation is equalized. Through the formed cracks in the casing, erosion of the annular cavity is carried out using a hydromonitor jet of dissection fluid. To do this, a 0.5% aerated aqueous solution of sulfanol with a 10% aqueous solution of hydrochloric acid with an aeration degree of 1 m ³ / m is injected into the slot through a hydraulic nozzle. The speed of moving the nozzle along the slit is maintained within 20 mm / min at a flow rate of 2.5 g / s of hydraulic fluid and a pressure at the wellhead of 12-15 MPa. After erosion of the annular cavity, technological exposure is performed for 24 hours to respond. Next, the development of the well. As a result, the flow rate of the well was 39 m ³ / day with a water cut of produced products of 29%. The production rate of the surrounding producing wells, mastered by known technology, is 6-8 m ³ / day with a water cut of produced products of 25 - 35%.

 The application of the proposed method will achieve high productivity wells in the zone of reservoirs with low reservoir pressure.

Claims (1)

A method of opening a productive formation, including the formation of a longitudinal slit and erosion of an annular cavity with a hydromonitor jet of opening fluid, characterized in that a formation with a reduced reservoir pressure is selected for opening, the well is cased and cemented, the annulus is filled, before the formation of longitudinal slots, the well is filled with liquid until the hydrostatic pressure exceeds reservoir, the bottom of the well is filled with an aqueous solution of a surfactant with an intensifying component, squeezed in the casing string in the interval of the reservoir, longitudinal gaps, after the formation of longitudinal gaps, an aerated aqueous solution of a surfactant with an intensifying component with an aeration degree of 0.5-1.5 m ³ / min is used as an opening hydraulic fluid when the annulus is washed out, speed the movements of the hydraulic nozzle are maintained within 15-25 mm / min at a flow rate of hydromonitor liquid of 2-3 l / s and the pressure of the liquid at the wellhead 12-15 MPa, after erosion of the annular cavity, technical logical exposure and development wells.