RU2602437C1 - Method for primary opening by drilling of horizontal shaft in fracture type of oil and gas saturated carbonate reservoir under conditions of abnormally low formation pressures - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil and gas industry, specifically to technology of construction of deep wells, oil and gas production and, in particular, to primary opening of horizontal shafts of oil and gas saturated fracture carbonate reservoir with abnormally low formation pressure. Method comprises cyclically, after complete opening of each absorbing fractured interval using a drill bit, in interval of absorption zone, arranging on "equilibrium" viscous a colmation acid-soluble stack. This temporarily isolates absorption zone. Then method comprises lifting string bottom and lowering drilling tool with "funnel" into absorption zone. After that, viscous colmation stack is washed at 15 l/s. Method then includes pumping acid-resistant proppant in design volume in said absorbing fractured interval of horizontal well. Then wellhead is sealed and at pressure not exceeding 3 MPa, providing minimum repression and intake, proppant is injected in mode of injection of 15 l/s into bottomhole formation zone. Method then includes repeatedly placing in open horizontal borehole viscous colmation acid-soluble stack on "equilibrium". This covers previously fixed cracks in zone of absorption of drilling mud. Lowering-lifting operation is performed for changing "funnel" on bit. Primary opening by drilling horizontal shaft in fractured carbonates is continued to absorption zone. After that, operation of fixation of fractures is repeated.

EFFECT: maintaining filtration properties of fractured carbonate reservoir during reduction of formation pressure and creation of large depressions during operation of said fracture collector.

1 cl, 1 ex

Description

The invention relates to the oil and gas industry, in particular to the technology of building deep wells, oil and gas production, in particular to methods of primary opening of oil and gas saturated cracked carbonate reservoir with abnormally low reservoir pressures by horizontal trunks. The technical result is the preservation of the filtration properties of the fractured carbonate reservoir with a decrease in reservoir pressure and the creation of large depressions during operation of the reservoir, reservoir, field. The inventive method includes a phased (cyclic) fixing cracks in the bottom-hole formation zone (PZP) proppant after the occurrence of absorption of drilling fluid during drilling through a productive reservoir. Next, the absorption zone or the trunk section is insulated with a viscous mudding (acid-soluble) packet and drilling continues to the next absorption zone. Hydraulic fracturing is not required due to the fact that the described carbonate reservoir is characterized by the presence of cracks with high openness (more than 1 mm) and, accordingly, high injectivity (injection pressure at the mouth up to 0.2-0.3 MPa, flow rate over 50 m ³ / hour).

There is a method of developing an oil field represented by a porous-fractured reservoir (RF Patent 2171368, CL EV 43/20, 2000). This method allows to reduce the percentage of water in the final product. The effect is achieved due to injection control (productivity and pressure) in injection and production wells.

The closest way is the method of primary opening of productive formations when drilling for oil and gas (RF Patent 2283418, CL ЕВВ 21/00, 2003 (Prototype)). It consists in the phased treatment of the drilling fluid with chemical reagents during the initial opening of the reservoir. This ensures a high-quality primary opening with minimal impact on the bottomhole formation zone and ensuring optimal well production.

All these methods have one significant drawback, namely: they do not take into account the deterioration of the filtration properties of the carbonate fracture reservoir due to changes in fracture permeability (crack closure) due to the creation of large depressions and the inevitable drop in reservoir pressure during operation of the reservoir. Maintaining reservoir pressure in the oil and gas field operation cycle at the level of initial (natural) values is today an almost impossible task. The decrease in reservoir pressure can go at different rates, and even in the first years of production, reservoir pressure may decrease by several percent. This value is sufficient to start the closure of cracks in the reservoir, which has been experimentally proved (Kashnikov Yu.A., Gladyshev S.V., Razyapov R.K., Kontorovich A.A., Krasilnikova N.B. Hydrodynamic modeling of the priority development area Yurubcheno- Tokhomskoye field, taking into account the geomechanical effect of crack closure. / Development and operation of oil fields, No. 4, 2011. P. 104-107). A significant amount of depression created during operation has a negative effect on the filtration properties of the fractured carbonate reservoir, thereby reducing the productivity of oil production wells, which for the field as a whole can reach 27%.

The objective of the invention is to develop a preventive algorithm (sequence of operations) in the primary drilling cycle by horizontal drilling in order to prevent the closure of natural fractures of the carbonate reservoir during long-term operation at large depressions, which will ensure the preservation of high productivity of oil production wells.

The essence of the invention is a phased (cyclic) fastening of PZP cracks with proppant during horizontal drilling (primary opening) along the reservoir (when the reservoir is characterized by natural permeability values not yet changed by the technical effect), after which the absorption zone is temporarily isolated in this section of the trunk .

The technical result of the proposed method is to create optimal conditions for the initial opening of the productive reservoir while preserving the natural filtration properties of the fractured carbonate reservoir during the long-term operation of the oil reservoir and increasing (preserving) the oil recovery coefficient.

The technical result is achieved by the proposed method of primary opening by drilling a horizontal wellbore in a fractured type of oil and gas saturated carbonate reservoir under conditions of abnormally low reservoir pressures, including its initial opening of productive formations on the drilling fluid to the first absorption zone, complete opening of the absorption zone with drilling of 15-20 m, while after opening each extended absorbing fractured interval with a chisel - in the interval of the absorption zone a viscous colm is placed at “equilibrium” acid-soluble pack, temporarily isolating the absorption zone, then the bottom of the drill string assembly (BHA) is lifted and the boring tool with a “funnel” is lowered into the absorption zone, after which the viscous mud pack is washed at Q = 15 l / s and pumping acid-resistant proppant in the calculated volume into this absorbing interval of the horizontal wellbore, then the wellhead is sealed at a pressure that ensures minimal repression and throttle response to the fracture reservoir, at the same time they press proppant at the injection rate of Q = 15 l / s, P = 2-3 MPa into the bottomhole zone of the formation in order to fix open fractures in the natural state, then re-push the viscous acid-soluble mud block in the bottomhole formation zone at “equilibrium”, temporarily blocking the cracks in the drilling fluid absorption zone, and then after the round-trip operation, horizontal drilling in fractured carbonates is continued until the next absorption zone.

Thus, the algorithm of the claimed method includes: complete opening of the absorption zone, temporary isolation of the bottom hole, the lowering and lifting operation (SPO) to replace the BHA to a boring tool with a "funnel", washing out the insulating bundle from the bottom hole, fixing the natural cracks by pumping proppant, pumping the mud block for temporary isolation of the absorption zone, STR for changing BHA to drilling wells. The cycle is repeated at the opening of a new zone of complete absorption.

The process of fixing cracks becomes possible without hydraulic fracturing due to the specific features of the fractured carbonate reservoir. The openness of natural cracks can reach from fractions to tens of millimeters (Yurubcheno-Tokhomskoye field). The main role in well productivity is played by the opening of such natural highly permeable fractured zones. The initial opening of such zones is always characterized by the absorption of drilling fluid, which is an indicator to begin work on fixing natural cracks. It is proven that the decrease in reservoir pressure or the creation of large depressions in the bottom-hole zone of the formation can provoke an irreversible closure of the cracks. This will lead to a sharp drop in well productivity, and on the scale of the entire field, this will lead to a sharp decrease in production and, as a result, a significant drop in the profitability (up to 27%) of the entire development object. The application of this technology allows us to ensure the safety, quality and continuity of drilling through an oil reservoir with an AIP on one side. On the other hand, to ensure the permeability of natural cracks in the bottomhole formation zone in order to expand the possible range of depressions on the productive oil-saturated interval in the subsequent and after drilling (in the cycle of cleaning from mudding of cracked openings), while simultaneously controlling as% of the mud content of the desired fraction in the drilling fluid, and the magnitude of dynamic repression on the fluid geodynamic system). The inventive method also allows to achieve the effect of reducing repression during drilling on a fractured reservoir and Riphean fluid geodynamic system (opened by drilling oil-saturated carbonate fractured reservoir). This, in turn, reduces the risk of catastrophic removals and subsequent gas and oil occurrences, subject to the conditions of strictly limited static or dynamic repression. This additionally ensures the technical safety of operations and the continuity of the well deepening cycle under conditions of constant limited absorption during the opening of a carbonate fractured oil-saturated formation with an abnormally low formation pressure.

EXAMPLE

As an example, typical conditions are shown during the initial drilling of a horizontal wellbore in an oil-saturated fracture type of a Riphean carbonate reservoir under conditions of abnormally low reservoir pressures at the Yurubcheno-Tokhomskoye oil and gas condensate field.

Drilling is carried out in the horizontal wellbore interval of 3061-3257 m at the regimes Q = 14 l / s; P = 135-159 atm; G = 7-12 t; N = 45-60 rpm; M = 1.6-1.7 t * m; V rotor = 2.8 m / h; Vslide = 2.1 m / h. Sludge: dolomite 100%.

At a depth of 3251 m, an increase in fur is recorded. speeds up to 10.1 m / h. Intake up to 12 m ³ / h. At a depth of 3252.5 m, total absorption.

Next, a viscous colmatating acid-soluble mud-based mud pack is injected based on the drilling fluid in V = 10 m ³ at “equilibrium”. Q = 10 l / s, P = 81 atm. BHA is being lifted to change to a “funnel” for proppant injection. After the descent of the boring tool with a “funnel”, the viscous mud block is washed out at the P = 15 l / s mode.

Then the mouth is tied according to the standard scheme for pumping proppant into the collector. The proppant is pumped at Q = 15 l / s. Filling into natural cracks is carried out with a sealed wellhead at pressures not exceeding P = 2-3 MPa. In the event of a rise in pressure, the injection is stopped. The main feature of natural fractures in carbonate reservoirs is the dependence of their opening on bottomhole / reservoir pressure. During the absorption, the hydrostatic pressure of the drilling fluid is aligned with the reservoir pressure. An additional differential of 2-3 MPa allows proppant to be pumped into natural cracks, while their openness will be greater than in the natural state. After the proppant injection operation, additional excess pressure is removed from the walls of the cracks, thereby closing in a natural state and holding the proppant inside them. Then again, in the interval of the absorption zone, a viscous, acid-soluble, colmatating pack at the “equilibrium” is pumped. Perform the rise of the "funnel" to change the "BHA" for drilling. Further drilling is carried out to the next absorption zone. The whole algorithm is repeated from the beginning.

Claims (1)

The primary method of drilling a horizontal hole in a fracture type of oil and gas saturated carbonate reservoir under conditions of abnormally low reservoir pressure, including the primary opening of productive formations in the drilling fluid to the first absorption zone, characterized in that cyclically, after completely opening each absorbing fractured interval with a bit, in the zone interval the absorption is placed at "equilibrium" viscous colmatating acid-soluble pack, temporarily isolating the absorption zone, then t raising the layout of the bottom of the drill string and lowering the boring tool with a “funnel” into the absorption zone, after which the viscous mud pack is washed at 15 l / s and pumping acid-resistant proppant in the calculated volume into this absorbing fractured interval of the horizontal wellbore, then the wellhead pressurized and at a pressure not exceeding 3 MPa, ensuring minimal repression and throttle response, proppant is pressed through the injection mode of 15 l / s into the bottomhole formation zone, then re-placed t in an open horizontal wellbore a viscous colmatating acid-soluble mud pack at “equilibrium”, blocking previously fixed cracks in the mud absorption zone, perform a round-trip operation to change the “funnel” to a bit and then continue the initial drilling of the horizontal wellbore in fractured carbonates to the next zone absorption, after which the operation of fixing cracks is repeated.