RU2209940C1 - Method of operation of wells with stopped flowing - Google Patents

Abstract

FIELD: oil and gas producing industry; applicable in oil production from wells with stopped flowing due to drop of formation pressure or increased water encroachment. SUBSTANCE: method includes supply from surface of gas to well with stopped flowing; lifting of gas-fluid mixture with various ratio of its gas and fluid components through lifting channel formed by space of tubing string installed in well, or annular space between said tubing string and well walls; supply of said gas-fluid mixture to products collector. Well with stopped flowing is connected with flowing well by pipeline including booster pump. Coming from flowing well oil-gas products, completely or partially, are directed to booster pump, and from booster pump, to well with stopped flowing, with subsequent lifting of these products through lifting channel together with products of well with stopped flowing. If supplied to booster pump is only a part of oil-gas products from flowing well, ratio in it of gas and oil components is left invariable, or varied by separation in separator included into pipeline interconnected said wells, between flowing well and booster pump. A part of oil or gas component is discharged into products collector to bypass well with stopped flowing. EFFECT: provided well operation in conditions of absence of high-pressure gas source. 2 dwg

Description

 The invention relates to the oil and gas industry and can be used for oil production from wells that have stopped flowing due to a drop in reservoir pressure or an increase in water cut.

 It is known that as the formation energy decreases or the water content in the production decreases, the flow rate of fountain wells decreases. At the moment when the reservoir energy is not enough to raise the fluid from the reservoir to the surface, the process of well flowing stops.

 Production of products from such a well can be resumed by supplying gas to it, i.e., by creating a gas-lift production process in which production in the form of a gas-liquid mixture with different ratios of its gas and liquid components is lifted along the lifting channel formed by the space of the pumping column installed in the well -compressor pipes or annular space between this column and the walls of the well, with subsequent supply of the mixture to the collector of product collection. In this case, gas for providing a gas-lift process in a well is mainly obtained from a network of gas pipelines using compressors (1).

 The disadvantage of this method is the need for such a source.

 It is also known that high pressure natural gas is used to create a gas lift production process from gas layers of a neighboring well or the well itself. But in this case, it is necessary to have nearby such gas reservoirs or wells, the gas pressure in which would be sufficient to supply it to the well, which stopped flowing.

 At a late stage in the development of an oil field, the number of wells that stopped flowing due to a drop in reservoir pressure and watering increases, and from wells that continue to flow, products using traditional production technology are sent to the oil reservoir through fittings. At the same time, part of the formation energy is spent on the pressure drop triggered in them. This part of the reservoir energy, which in this case is spent only on regulating the operating mode of flowing wells, can be effectively used to put into operation and maintain operating wells that stopped flowing by transferring without production union the flowing well into a booster pump and then with booster into a well that has stopped independent work. Closest to the claimed technical solution is a method of producing products from a well that has stopped flowing, including supplying gas and liquid to it from the surface, lifting along a lifting channel formed by the space of a tubing string installed in the well or an annular channel between this string and the walls of the well, gas-liquid mixture with a different ratio of its gas and liquid components, including oil and gas products, and supplying the mixture to the collection collector (2).

 An object of the invention is to provide a method for operating a well that has stopped flowing in the absence of a high pressure gas source.

 This task is achieved by the fact that in the method of producing products from a well that has stopped flowing, including supplying gas from the surface of the gas to it and lifting along the lifting channel formed by the space installed in the well of the tubing string or annular channel between this string and the walls of the well, gas-liquid mixtures with different ratios of its gas and liquid components and the supply of the mixture to the production collector, which stopped flowing out of the well with a pipeline including a booster pump, they are revealed with a gushing well and the oil and gas products exiting from it, all or only part of it, are sent to the booster pump at the pressure of its emergence to the surface, and the booster pump is fed into the well that stopped flowing and the oil and gas products are subsequently lifted along the lifting channel together with the well production direction in the booster pump only part of the oil and gas products of the gushing well, the ratio of gas and oil components in it is left unchanged or changed by separation in separa torus, incorporated into the well conduit on the connecting portion between the flowing well and the booster pump, and wherein a portion of an oil or gas component of the product is dropped into the collection manifold, bypassing the stop blowout.

 In FIG. 1 and FIG. 2 presents possible installation schemes in which the proposed method is implemented.

 In FIG. 1 shows a diagram of an installation for implementing the method when supplying to the cessation of flowing well a booster pump of oil and gas products of a flowing well, all or only part of it.

 The well 1, which stopped gushing, is connected to a gushing well 2, having, like well 1, a lifting channel 3 formed by the space of a tubing string installed in the well, and an annular duct 4 between this tubing string and the walls of the well, 5 s pipeline the booster pump included in it 6. Wells 1 and 2 have shut-off 7 and adjustment 8 nodes and are connected to the collector 9 of the collection of products.

 Oil and gas products from the lifting channel 3 of the tubing of a gushing well 2 at a pressure of its exit to the surface are sent through a pipeline 5 to a booster pump 6 and then, with increasing pressure, into the annular channel 4 which stopped flowing out of a well 1. Production of a well 2 in a well 1 of its annular channel 4 enters the lifting channel 3 of the tubing and, rising to the surface, creates the conditions of the gas-lift process, in which the lifting channel 3, and along it to the surface and into the manifold 9, together with The production of well 2 enters the production of well 1, consisting of gas, oil and water. Thus, the upward flow of oil and gas products from the well 2 in the lifting channel 3 of the well 1 performs the work of raising the products of the well 1 and supplying it together with the products of the well 2 to the pipeline of the collector 9 of the product collection.

 If the productivity of well 2 exceeds the amount of oil and gas products necessary for supplying to well 1 for the extraction of its products, then the supply of oil and gas products is controlled by changing the productivity of the booster pump 6 and dumping part of it through the regulating unit 8 into the collector 9 for collecting products.

 In FIG. 2 is a diagram of an apparatus for implementing the method when a portion of the oil and gas products of the flowing well with a changed ratio of its gas and oil components is supplied to the cessationary well by the booster pump.

 In the connecting well 1, which stopped the flowing, and the gushing well 2, pipe 5, in the section between the well 2 and the booster pump 6, include a separator 10. The gas and liquid outlets of the separator 10 are connected through the booster pump 6 to the well 1, and also through its adjustment units - gas 11 and oil 12 - with a collector 9 collection of products.

Oil and gas products from the lifting channel 3 of the tubing of the gushing well 2 with the value of its outlet pressure to the surface are sent through pipeline 5 to the separator 10, where it is separated into gas and oil components. At the outlet of the separator 10, part of the gas and part of the oil components of the product with the ratio of gas and oil required for the optimal operation of the well 1 by the booster pump 6 are selected and, with increasing pressure, fed into the annular channel 4 of the well 1. The rest of the oil and gas products of the well 2 through the adjustment nodes - oil 12 and gas 11 of the separator 10 - dump into the collector 9 product collection
The part of the oil and gas production of well 2 coming from the booster pump 6 to the well 1 ensures the creation of a gas-lift process condition in the lifting channel 3 of the well 1 and thereby raising the production of the well 1 and supplying it together with the incoming part of the production of the well 2 to the reservoir 9.

 Thus, the oil and gas products of the gushing well 2, all or only part of it, with an unchanged or with a changed ratio of gas and oil, taken by the booster pump 6 at the pressure of its exit to the surface, enters through the production stopping well 1 into the production collector 9 together with its products, performing the work of lifting the products of the well 1 along the lifting channel 3.

 Implementation of the proposed method allows you to create a stable gas-lift operation mode of a well that has stopped flowing in the lift channel with minimal additional energy consumption due to the use of the part of the reservoir energy of the flowing well in the booster pump that is lost in the nozzle of the flowing well with the adopted technology of flowing production while adjusting its productivity in the form of the difference in the pressure at the wellhead and the reservoir of product collection.

Sources of information
1. Muravyov I.M. and other Development and operation of oil and gas fields, M .: Nedra, 1970, pp. 239-243.

 2. The same, pp. 140-143.

Claims (1)

 A method of operating a well that has stopped flowing, including supplying it from a gas surface, climbing a lifting channel formed by the space of a tubing string installed in the well or the annular space between this string and the walls of the well of a gas-liquid mixture, with different ratios of its gas and liquid components and supply of the mixture to the collector of production collection, characterized in that the cessation of the well stopped by a pipeline including a booster pump is connected to the font with a boiling well and oil and gas products leaving it, all or part of it, is sent to the booster pump at the pressure of its emergence to the surface and the booster pump is fed into the well that stopped flowing and then this product is lifted along the lifting channel along with the well products, and when directed to booster pump only part of the oil and gas products of the gushing well, the ratio of gas and oil components in it is left unchanged or changed by separation in a separator included in unifying the well conduit in the area between the well and flowing the booster pump, wherein the portion of an oil or gas component discharged into product collection manifold, bypassing the stop blowout.

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