RU2186203C2 - Method of well operation - Google Patents

Abstract

FIELD: oil and gas producing industry, particularly, development of single-formation and multiformation producing horizons. SUBSTANCE: method involves using of multistring structures with string perforated out of well. Said structures are secured with removable anchors with airtight medium separators and isolated with injected hydraulic seals. Multiformation producing horizons are alternately operated from top down, from branches of main (parent) wellbore. After operation of formation, it is conserved. Conditions are provided for product accumulation in zone of its withdrawal by lowering of cone of underlying waters. After operation of the last power producing formation, it is also conserved and upper from atop producing formation is operated again after removal it from conservation. EFFECT: ecological safety of well, reduced consumption of power resources and multiple operation of producing formations. 5 cl, 1 dwg

Description

 The invention relates to the oil and gas industry, in particular to a method of operating both single-layer and multi-layer productive horizons in which a well has been drilled.

 A known method of operating wells "bottom-up", including the transition of production from the lower (last) spent productive formation to the subsequent upper formation from the main wellbore using wiring parallel to the productive formation sidetracks (branches) or without them [1].

The disadvantages of this method [1] are:
- a very low level of environmental safety, since during the long-term operation of the lower reservoir from the upper reservoirs due to low-quality isolation, circuit and inter-circuit flooding, as well as differential pressure, both aggressive waters and hydrocarbons, hydrogen sulfide, radionuclides, iron, etc. .d. into underground aquifers;
- the need for additional insulation work both in the roof and in the sole of the second lower layer of the productive layer, as well as the subsequent higher lying layers in order to avoid fluid flows, which leads to large economic costs;
- inefficient installation of a cement bridge in the production casing above the roof below the underlying waste formation that is not in compliance with both technical and environmental safety standards, as well as well liquidation by installing cement bridges in the production casing, do not exclude the migration of fluids, hydrocarbons, hydrogen sulfide, radionuclides, iron and etc. through the annular spaces into underground aquifers and river sources due to the lack of contact between cement and rock;
- maintenance of the contour and in-contour waterflooding workshop, as well as the well repair shop, where the economic costs sometimes exceed the direct wiring of the wellbore to the repaired formation.

 It is also known [2] that after the formation has been shut off for 3-4 years, when the production of the same reservoir is resumed, a pure product is extracted with a cost-effective flow rate due to the accumulation of the product in its selection zone and the reduction of the cone of the underlying product water. For many decades, the operation of productive formations in the well has been carried out from bottom to top, and from the openings of the main borehole from upper-lying productive strata, during many years of operation of the lowest productive stratum, the migration of iron ions, radionuclides, hydrocarbons, hydrogen sulfide, etc. through annular spaces into the environment for many kilometers, poisoning underground drinking water, springs and river sources, and this happens for a long time until the pipe metal is completely destroyed.

 Each well, operated and liquidated by the existing method - in the production casing - is, according to the principles of environmental safety, a time bomb. Overflow and inland flooding of productive formations adjacent to human settlements, as shown by many years of practice, are generally unacceptable for environmental safety reasons. Wells are especially environmentally hazardous when operated with a parallel (horizontal) reservoir (end) of the wellbore, where almost always with traditional insulation, cement in the annulus is formed by a crescent and is quickly destroyed by temperature fluctuations affecting the pipe metal.

 The existing liquidation of wells in the entire world oil and gas industry by installing cement bridges in the production casing is not practical, since aggressive ingredients migrate through the annulus using the traditional method of casing and insulation of the columns through micro- and macrocracks of the cement ring behind the casing, both radionuclides, heavy elements, and others, into the environment from waste productive formations and an exploited stratum [1,2,3,4].

 A known method of operating a well according to the patent of the Russian Federation 2139413 [5], covering both exploratory and operational types of work, this method can be used in underground, underwater pipe junctions and in transitions with an aggressive environment, as well as in multi-face operation of a single reservoir with one main the trunk. This method [5] includes cementing the direction of the wellbore and pumping a water seal in conjunction with a sealed media separator and an anchor.

 The disadvantages of the prototype is that during the overhaul of the well, fluid flows through micro- and macrocracks of the cement ring behind the column, both radionuclides, heavy elements, and others, into the environment from spent productive formations and an exploited formation.

 The necessary technical result is achieved by the fact that the exploitation of multilayer horizons is carried out alternately "from top to bottom" from the "branches" from the trunk of the main well, drilled parallel to the producing formation with the descent into the "branch" of the perforated countersunk column finished on the surface, secured with an anchor with a packer, consistently lower the production casing with fastening with an anchor with a packer, insulation of the trunks ("branches") with a water seal, cause inflow and begin to operate the formation.

 After the operation of the next formation, the well is canned, the product is accumulated in the selection zone by reducing the cones of water underlying the product in the formation, and after the operation of the last lower productive formation, it is also preserved and the re-exploitation of the upper one from the top is started.

 If during the operation of the water in the product, the packer and anchors of the operational and secret perforated columns are brought into transport position, the columns are removed, the columns are removed, and a cement bridge with cement - mountain contacts is placed in the "branch" of the product formation trunk from the main trunk of the product trunk from the main trunk the rock, in the main wellbore, is crushed into the reservoir to the product selection zone in the “branch” cement - the spent first reservoir from above is completely preserved, the second drill is put into operation from the reservoir by drilling out the cement bridge on the main trunk, the phased creation of "branches" of the product selection stem from the main stem, replaceable shutter and pan-perforated production casing, proceed to the next operation of the producing formation in the same order of priority until the last lower reservoir.

 To re-preserve the upper layer, a cement bridge is drilled in the “branch” of the product selection barrel with descent into the “branch” of the pipe string barrel and production equipment for product operation, while operations are carried out repeatedly several times to the lower productive formation.

 When operating productive formations with a high content of hydrogen sulfide in the product, they provide the next replacement of operational equipment for pipe structures.

 The main wellbore and the first “branch” of the product selection barrel are drilled from a stationary installation, the next ones from self-propelled drilling rigs.

 The operation of top-down wells is also carried out without drilling the main well before the project by drilling a productive formation from one wellhead on each top and productively multi-layer wells are not eliminated, but the used production layers are preserved by installing cement bridges with a cement contact in the roof of these layers rock ", which is not affected by temperature fluctuations, shocks, etc.

 Distinctive features of the proposed method is that when operating a well with a top-down selection of the product in a closed cycle periodically, it provides the conditions for product accumulation in the selection zone, provides a time to reduce the water cone of the underlying product, and keeps the main wellbore for a long time preserving only productive, temporarily spent formations ensures the ecological safety of the well, protects underground drinking water from pollution, and reduces production The costs associated with the development of the entire field make it possible for the natural physico-biological and chemical continuation of the formation of oil and gas in formations.

 The drawing schematically shows a method of operating a well with multilayer productive horizons with periodic operation through the main wellbore drilled before the project, where: cemented direction of the wellbore 1, conductor and technical column 2, anchor with packer 3, anchor with packer 4, anchor with packer 5, secret perforated off-well column 6, reservoir 7, cement bridge 8, “branch” of trunk 9, cement bridge 10, “branch” of barrel 11, reservoir 12, reservoir 13, cement plug 14, main hydrochloric wellbore 15, "branch" of the barrel 16, the guide funnel 17, production tubing 18, the water seal 19.

 The method is as follows.

 The main wellbore 15 of the well is built before the project in the usual way with direction 1, which is cemented with a conductor and a technical column 2, which are anchored with a packer 3, and insulated with a water seal 19, after which, depending on the porosity and permeability of the reservoir, a certain amount of cement is introduced into it plugs 14 pump cement under a certain pressure.

 Cement bridges are installed 8.10 below the productive strata 7.13, no cement bridge is placed below the last stratum 12, the first “branch” 16 is built, the trunk of which is parallel to the productive stratum 7, a secret column 6 is made, perforated outside the well, with a guiding funnel 17, which fasten with a packer with an anchor 5 in the roof of the reservoir 7, isolate with a water seal 19 followed by the descent of the production casing 18, which is fastened in a countersunk perforated column 6 with an anchor with a packer 4, and isolate with a water seal 19. After which they call the product’s outcome and start to work on formation 7. Having completed its operation at economically disadvantageous parameters (low flow rate, a lot of water, etc.), the reservoir 7 is preserved in the above way, the cement bridge 8 is drilled - they proceed to the construction of the trunk branch 9 in the same way how the trunk branch of the productive trunk was built 7.

 After the operation and preservation of the formation 13 in the aforementioned manner, a cement bridge 10 is drilled, a “branch” of the barrel 11 is built, which is equipped for operation with devices and pipe structures with their fastening and isolation in the same way as for the first 7 and 13 from the top of the productive formations. After the operation of the last 12 strata, it is canned, a cement bridge 8 is put up, the stratum 7 is re-opened, the branch 16 is equipped and the secondary operation of the stratum is started.

 The proposed system for the exploitation of productive formations provides both the production of a product from the reservoir and the possibility of natural physical, biological and chemical formation of oil and gas in the formations. Outlined and well contour waterflooding of the reservoir, expensive well overhaul associated with the elimination of inter-reservoir fluid flows, are replaced by separate preservation of the reservoirs by cement in contact with the rocks, which prevents the migration of hydrocarbons, hydrogen sulfide, radionuclides, heavy metals iron and other ingredients in aquifers; this ensures the environmental safety of the well and the operation of all m oil and gas fields.

Sources of information
1. Sidorov N.N. Drilling and exploitation of oil and gas wells. - M .: Nedra, 1982.

 2. Afanasyeva A.V., Zinovieva L.A. Analysis of the development of oil and gas deposits. - M .: Nedra, 1980.

 3. Drilling and development of oil fields. - Kuibyshev: Publishing House of the Kuibyshev Polytechnic Institute, 1989.

 4. Bulatov A.I. The formation and operation of cement stone in the well. - M., 1990.

 5. RF patent 2139413, IPC E 21 B 33/14, publ. 10/10/99, Bull. 28. Authors: Kalmykov GI, Nugaev R.Ya. and etc.

Claims (5)

 1. The method of operating the well, including multi-column structures with a perforated perforated column outside the well, fixed with removable anchors with hermetic dividers of the medium and isolation with a pumped shutter, characterized in that the operation of multi-layer productive horizons is carried out alternately from top to bottom from the trunk branches from the main wells, after the operation of the next formation, it is canned, create conditions for the accumulation of the product in the selection zone by reducing the cones of water underlying the product in the formation e, and after the operation of the last lower reservoir, it is also preserved and the re-exploitation of the upper top reservoir is started.  2. The method according to p. 1, characterized in that when water in the product appears during operation above the regulated norm, the packer and anchor of the operational and hidden perforated columns are brought into the transport position, the columns are removed, and in the roof of the spent formation in the “branch” of the trunk take a cement bridge with cement-rock formations from the main trunk, take the cement in the main well into the reservoir to the product selection zone in the cement “branch” - completely exhaust the first layer from the top, they transfer to operation of the second one from the top of the formation by drilling a cement bridge in the main bore, stage-by-stage creation of a “branch” of the product selection bore from the main bore, lowering the replaceable countersunk perforated and production casing, start the operation of the next producing reservoir, in the same sequential order, to the last lower formation .  3. The method according to p. 1 or 2, characterized in that for re-preservation of the upper layer from the top, a cement bridge is drilled in the “branch” of the product selection barrel with a descent into the “branch” of the pipe string barrel and production equipment for product operation, while the operations are carried out sequentially repeatedly to the lower reservoir.  4. The method according to one of paragraphs. 1-3, characterized in that productively multilayer wells are not liquidated.  5. The method according to one of paragraphs. 1-4, characterized in that during the operation of productive formations with a high content of hydrogen sulfide in the product provide the next replacement of operational equipment of pipe structures.