RU2441975C1 - Methods of well killing within the severe environment of gas and gas-condensate wells - Google Patents

Abstract

FIELD: oil producing industry.

SUBSTANCE: invention belongs to the oil producing industry, more specifically, to killing of gas and gas-condensate wells within the framework of well-workover, primarily carried out in productive formations with abnormal low pressure and within the severe environment. Essence of the invention: the production string is filled with sealing composite in the volume equal to the total volume of the production string and the volume of the annular sub-packer space of a well. The sealing composite is pushed into a sub-packer space of a well, gradually pumping the production string with displacement and killing fluid, whereupon the well is left off for return-to-thermal-equilibrium time. After that the completion fluid is pumped into the annular space of a well, pushing out the gas, accumulated in the annular space, and into the completion string leak interval and the upper part of the annular space of a well, where it is gathered in a gas cap and blown off. Subsequently the annular space of a well is filled with a plugging composite with its driving into the completion string leak interval, whereupon the well is left off for about 12 hours. After that the production string upper than the packer and lower than the completion string leak interval is located, through holes are made. Beneath the through holes, from within the production string, a blind plug is placed. He production string is filled with killing fluid, which, while going through holes in the production string, rinses the rests of the plugging composite, displacement and completion fluid from the annular space of a well. The killing fluid supply is ceased, when its density in the annular space equals an initial density.

EFFECT: enhancement of packer well killing security within the conditions of abnormal low pressure and severe environment, more specifically, unpressurized completion string or faulty circulation valve.

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Description

The invention relates to the oil and gas industry, in particular to killing gas and gas condensate production wells during major repairs, mainly in productive formations with abnormally low reservoir pressures, in complicated conditions.

In the process of killing packer gas and gas condensate wells, annular filling of the annular space of wells with killing fluid should be carried out through the circulation valve that the wells are equipped with. However, experience shows that during long-term operation the valve fails and it is impossible to open it. In addition, in real conditions, most production cores are leaky.

There is a method of killing a gas well under conditions of abnormally low formation pressure (ANPD), which includes blocking the perforation interval by applying to the bottom of the well and into the borehole zone of the formation through an elevator string of blocking composition and subsequent pumping of the killing fluid into the well (RU No. 2188308).

The disadvantage of this method of killing wells in difficult conditions with an leaky production string and a faulty circulation valve is the low reliability of killing wells due to the inability to maintain backpressure at the well as a result of absorption of the killing fluid in the leakage interval of the production string.

There is a method of killing wells in terms of ANPD, which includes blocking the perforation interval by applying to the bottom of the well and into the borehole zone of the formation through an elevator column of a blocking composition, followed by pumping killing fluid into the well (RU No. 22525209).

The disadvantage of this method of killing wells in difficult conditions with an leaky production string and a faulty circulation valve is the low reliability of killing wells due to the inability to maintain backpressure at the well as a result of absorption of the killing fluid in the leakage interval of the production string.

The objective of the invention is to develop a method for killing packer gas and gas condensate wells in the conditions of oil production.

The technical result consists in increasing the reliability of jamming of packer wells under the conditions of oil production in difficult conditions, in particular with an unpressurized production string and a faulty circulation valve.

The problem and the technical result are achieved by the fact that in the method of killing gas and gas condensate wells equipped with production and lift columns, a packer in complicated conditions, the blocking composition is pumped into the lift column in an amount equal to the total volume of the lift column and the volume of the annular under-well space of the well, blocking composition into the under-packer space of the well, sequentially pumping the squeezing and killing fluids into the lift column, and leaving t of the well to the technological rig for the release of gas caps, after that technical water is pumped into the annulus of the well, displacing the gas located in the annulus of the well into the leakage interval of the production string and into the upper part of the annulus of the well, where it accumulates in the gas cap and periodically it is etched, then the plugging composition is pumped into the annulus of the well, it is pressed into the leakage interval of the production string y and maintain the well for no more than 12 hours, then in the elevator string above the packer, below the leakage interval of the production string, through holes are made, below the through holes, inside the elevator string, a blind plug is placed, the silencing fluid is fed into the elevator column, which passes through holes in the elevator column, washes from the annulus of the well the remains of the plugging composition, squeezing fluid and process water, while the flow of the killing fluid is completed when its density in the mud bnom space of the well will be equal to the original density.

The method is implemented as follows.

A blocking composition is pumped into the elevator column of a gas or gas condensate well equipped with production, elevator columns and a packer, originally equipped with a circulation valve, under difficult conditions caused by a failure of the circulation valve and leakage of the production string.

As a blocking composition, a high viscosity polymer-colloidal solution or a thickened invert emulsion solution is used. In this case, the composition must withstand repression on the reservoir, 3-5 times higher than the reservoir pressure, withstand the maximum value of hydrostatic pressure in the well during the AAP, withstand the maximum pressure drop between the well and the reservoir.

The volume of the blocking composition is equal to the total volume of the lift string and the volume of the annular sub-packer space of the well.

The blocking composition is pushed into the sub-packer space of the well, sequentially pumping the squeezing and killing fluids into the elevator column, and the well is left at the technological stand for the release of gas caps. A water methanol solution with a density of 920-960 kg / m ³ is used as a squeezing liquid, and an emulsion solution based on gas condensate with a density of 940-1020 kg / m ^{3 is} used as a kill fluid for gas wells, and an aqueous solution of sodium chloride with a density of 1040 is used for gas condensate wells -1100 kg / m ³ .

It is possible to pump the blocking composition, squeeze and kill fluid into the lift column through flexible pipes of the coiled tubing unit or through flush pipes that are lowered using a mobile lifting unit, or by pumping through the lift column itself into the “forehead”.

After the technological curing, technical water is pumped into the annulus of the well, displacing the gas located in the annulus of the well into the leakage interval of the production string and into the upper part of the annulus of the well, where it accumulates in the gas cap and is periodically bled. At the same time, gas is released from the annulus of the well by stopping and topping up process water into the annulus.

After the degassing of the well, the plugging composition is pumped into the annulus of the well, it is pressed into the leakage interval of the production string with squeezing fluid, and the well is kept for no more than 12 hours.

As the plugging composition, a clay solution with a density of 1060 kg / m ³ and a conditional viscosity of 65 s is used.

Then, through holes are made in the elevator column above the packer, but below the leakage interval of the production string. The through holes in the elevator string can be made by perforation or punch PSG-102, lowered on drill pipes.

Inside the elevator column, below the through holes, a blind stopper is placed, for which you can use the blind stopper included in the set of the underground equipment complex, either a bridge stopper or a specially made stopper that is lowered using a cable rope tool.

After the blind plug is installed, a kill fluid is supplied to the elevator column, which, passing through the through holes in the elevator column, flushes the remains of the grouting composition, squeezing fluid and process water from the annulus of the well. The flow of the kill fluid is completed when its density in the annulus is equal to the original density.

The use of the present invention will improve the reliability of jamming packer wells in difficult conditions with an leaky production casing and with a faulty circulation valve, will reduce the duration of repair work on the well.

Claims (1)

The method of killing gas and gas condensate wells equipped with production and lift columns and a packer under complicated conditions, in which the blocking composition is pumped into the lift column in a volume equal to the total volume of the lift column and the volume of the annular under-well space of the well, the blocking composition is forced into the under-well space of the well, sequentially pumping squeezing fluid and killing fluid into the elevator column, and leave the well at the technological stand for the release of gas outlet caps, after that technical water is pumped into the annulus of the well, displacing the gas located in the annulus of the well into the leakage interval of the production string and into the upper part of the annulus of the well, where it is accumulated in the gas cap and periodically bled, then into the annulus wells inject the plugging composition, push it into the leakage interval of the production string with squeezing fluid and hold the well for no more than 12 hours, then in the lift string above the packer, below the leakage interval of the production string, through holes are made, below the through holes, a blind plug is placed inside the lift string, a kill fluid is fed into the lift string, which, passing through the through holes in the lift string, washes out of the annulus of the well the remains of the plugging composition, squeezing fluid and process water, while the flow of killing fluid is completed when its density in the annulus of the well is equal to the initial noy density.