RU2321725C2 - Bottomhole reservoir zone blocking and gas well killing method - Google Patents

Abstract

FIELD: oil production, particularly to block bottomhole reservoir zone and to kill gas well drilled in highly-permeable productive reservoir, as well as well workover.

SUBSTANCE: method involves serially injecting blocking liquid and killing liquid in bottomhole reservoir zone. Blocking liquid is magnesium hydrogel comprising microshperes added in proportion of 10:4. Microsphere dimensions are selected to provide total bottomhole reservoir zone mudding and following microsphere flushing-out from bottomhole reservoir zone.

EFFECT: increased efficiency of reservoir blocking and gas well killing along with reservoir rock property retention and decreased well workover costs.

Description

The invention relates to the oil and gas industry, in particular to blocking the bottom-hole zone of a formation and killing gas wells that have opened a productive high-permeability formation, the so-called super-collector, during overhaul of wells (KRS).

A known method of blocking the absorbing reservoirs, including pumping into the well in the required amount of composition to block the absorbing reservoirs and forcing the buffer fluid to the absorbed reservoir to create a blocking zone [SU 1828912 A1, IPC ⁵ EV 33/138, publ. 1993.07.23].

The disadvantage of this method of blocking the bottom-hole zone of the formation with a chalk suspension is the low efficiency of blocking the bottom-hole zone of the formation and subsequent development of wells, especially those that have opened a productive formation with high permeability.

A known method of blocking absorbing formations in a well, comprising sequentially injecting buffer, blocking and additional fluids into the well [RU 2144608 C1, IPC ⁷ ЕВВ 33/138].

The disadvantage of this method of blocking the bottom-hole formation zone with a two-component composition is the low efficiency of blocking the bottom-hole zone of the formation and subsequent development of wells, especially those that have opened a productive formation with high permeability.

A known method of killing gas, gas condensate and oil wells, including forcing the emulsion composition to the shoe of the tubing and into the annulus [RU 2213762 C1, IPC ⁷ ЕВВ 43/12, С09K 7/06].

The disadvantage of this method of blocking the bottom-hole zone of the formation with an emulsion composition based on gas condensate, emulsifier-emulsion, organosilicon fluid and aluminosilicate microspheres is the low efficiency of blocking the bottom-hole zone of the formation and subsequent development of wells, especially those that have opened the productive formation with high permeability, due to the presence of aluminosilicate microspheres stratified over the entire volume of injected fluid, that is, over the entire wellbore, including above the reservoir other liquids during tripping and the loss of its blocking properties.

The closest in purpose and combination of features is a method of killing wells, which includes sequential injection into the bottom-hole zone of blocking and killing fluids [RU 2047745 C1, IPC ⁶ ЕВВ 43/12, С09K 7/06, publ. November 10, 1995].

The disadvantage of this method of blocking the bottom-hole zone of the formation with micellar solution is the low efficiency of blocking the bottom-hole zone of the formation and subsequent development of wells, especially those that have opened a productive formation with high permeability.

The objective of the invention is to develop a method of blocking the bottom-hole formation zone and killing gas wells with a super reservoir, which ensures reliable mudding of the bottom-hole zone of the formation while preserving the filtration-capacitive properties of the near-wellbore zone of the formation (PZP) and subsequent quick release of the formation, which reduces the time of well development and production pre-repair mode of operation.

The technical result when creating the invention is to increase the efficiency of blocking and killing wells, especially those that have opened a productive formation with high permeability, while maintaining the reservoir properties of reservoir rocks and reducing the cost of working with cattle.

The task and technical result is achieved by the fact that in the method of blocking the bottom-hole zone of the formation and killing gas wells, including sequentially pumping into the bottom-hole zone of the blocking liquid and the kill fluid, in contrast to the prototype, a hydrogel with microspheres is used as the blocking liquid, and the size of the microspheres is chosen from calculation of complete mudding of the bottomhole zone. The injection of the blocking composition is carried out at a weight ratio of hydrogel and microspheres of 10: 4.

A comparative analysis with the prototype allows us to conclude that the inventive method of blocking the bottom-hole formation zone and killing wells is characterized in that microspheres, for example aluminosilicate, glass or ceramic, which provide reliable blocking of the bottom-hole formation zone, especially with high permeability, are used as collimators washed out of the reservoir after completion of repair work at the well.

Thus, the claimed method has new qualities, which allows us to conclude about its inventive step.

The method is as follows.

First, a kill fluid, for example, saline, is prepared, then a hydrogel-based blocking fluid, into which the required amount of microspheres is introduced (component ratio 10: 4), and mixed until a uniform composition is obtained. Blocking fluid together with microspheres is pumped into the well and squeezed into the bottomhole formation zone by a kill fluid. The number and size of microspheres is selected based on the complete mudding of the bottom-hole zone with the possibility of their subsequent washing out of the bottom-hole zone with a hydrocarbon fluid. At the same time, microspheres, due to their sizes of 5-400 microns, clog the formation, clogging the pores of the formation, not allowing the kill fluid to penetrate into the formation and contaminate it, and reduce the reservoir properties of the formation and its productive characteristic. In the event that the formation rock is clay with a pore size of about 100 μm, the size of the microspheres used is 5-70 μm, if the formation rock is limestone with a pore size of 200-650 μm, the size of the microspheres is 5-400 μm.

The presence of microspheres only in the blocking pack, in the interval of the productive formation, and not throughout the wellbore, reduces the volume of microspheres used in the repair of the well, on the one hand, and on the other hand, does not lead to delamination of the blocking pack during tripping, for example , during the extraction of elevator pipes and downhole equipment, and the associated loss of blocking properties by the fluid, to premature self-manifestation of the well, which is especially important in highly permeable, so-called supercollects tori. A super collector in the conditions of ANPD is almost impossible to block in other ways than the proposed method.

Claims (1)

A method of blocking the bottom-hole zone of a formation and killing a gas well, comprising sequentially injecting blocking and killing liquids into the bottom-hole zone, characterized in that magnesium hydrogel with microspheres in a ratio of 10: 4 is used as the blocking liquid, the size of the microspheres being selected based on the total pore colmatation bottom-hole zone of the formation with the possibility of subsequent washing them out of the specified bottom-hole zone.