RU1778274C - Method for back cementing of casing strings - Google Patents

Abstract

Casing Re-Cementing Method. Usage: when cementing wells by the method of reverse circulation under conditions of absorption or abnormally high reservoir pressure. It provides the possibility of reducing the probability of rupture of the flow of cement slurry during its movement in the annulus, reduces the likelihood of trapping an additional column with grouting fluid entering the casing. SUMMARY OF THE INVENTION: An additional string is included in the casing. "Cement slurry is pumped into the annulus of the casing." At the same time as the grouting fluid is injected, the drilling fluid is circulated o This circulation is carried out through an additional string and an internal channel of the casing string. The circulation is carried out at a variable rate over time. Such circulation creates a backpressure to the injection of grouting mortar 0.2-0.5 MPa during the whole time for pumping. "After injecting the grouting mortar, the casing in the lower part is closed. After blocking the casing, the circulation of the drilling fluid is continued until the cement slurry is removed from the casing and the setting of the cement slurry in the annular space of the casing is completed. Then an additional column is removed. As a drilling fluid for circulation, a flushing fluid is used with the addition of KSSB in an amount of 0.1-0.5% of the fluid volume. 3 ill. 1 s.p. piano, class from VI VI 00 yu VI Јь

Description

The invention relates to the field of fastening oil and gas wells, and in particular to the process of cementing wells by the reverse circulation method, and is aimed at improving the quality of fastening of wells having absorbing horizons, as well as wells with AHP 0

A known method of reverse cementing casing, including the injection into the annular space of the well cement slurry treated with radioactive elements,

A known method of reverse cementing casing using an additional pipe string

In order to implement the method, an additional column of pipes is lowered into the well; the casing circulation of the drilling fluid is carried out into the casing space with a variable flow rate while the pressure is 0.2 to 0.5 NPa during the entire pumping time. and after blocking the casing, the circulation of the drilling fluid continues from the condition of tampo removal

cement slurry is pumped into the casing, after which the pressure drop between the additional and casing strings is measured and the increase in pressure drop is used to judge the beginning of the flow of cement slurry from the casing NJC space into the cemented string. There is a method for reversing the casing string, including the descent into the casing string for an additional time and before the end of the setting of the grout in the annular space of the casing. Rinsing fluid is used as drilling fluid with the addition of KSSB in the amount of 0.1 weft washing column, obopy 2Q 0.5% of the liquid volume,

The positive effect of the application of the invention is to save money spent on emergency response related

provided in the lower part with a sealing assembly and a pusher rod, which makes it possible to squeeze the shut-off ball away from the non-return valve, which ensures a positive effect from the application of the invention consists in saving missions related to emergency response

catch reverse circulation. After- 5 with the release of cemented to

(VD4

Mud circulation is carried out with a variable flow rate while maintaining the backpressure of grouting 0.2-0.5 NPa during the entire injection time, and after blocking the casing, the mud continues to circulate from the tampon removal condition.

and during the time until the completion of the cement slurry setting in the annular space of the casing. At the same time, drilling fluid is used as drilling mud to circulate through the additional casing and the internal channel of the casing, with the addition of CBS in the amount of 0.10, 5% of fluid volume ,,

The positive effect of the application of the invention lies in the saving of funds spent on the elimination of emergency situations associated with

pumping the cement slurry and sealing the bottom of the casing string involves circulating the flushing fluid through the additional column, as a result of which the grouting fluid 30 entering the pipe space is washed out of the well

The disadvantage of this method is the possibility of trapping an additional column of pipes with grouting mortar grouting element 5 and flushing rum when it enters the casing 6 “At the wellhead of the installed column, since the grouting fluid enters the column is already significantly dehydrated and has the increased static shear stress of the structure is centered by the centralizer 12 “Ger”. In the presence of considerable height, the metering unit is connected to an additional column using the existing technology.

On Aig. 1-2, a general casing cementing diagram is shown, the constituent elements of which are casing 1 equipped with a seating seat 2 and additional string 3 equipped with a flushing sealing unit k having a pack

a preventer 7 having an outlet 8 with a pressure gauge 9, as well as oil seals 10 and outlet 110, an additional column of cement slurry makes it difficult to wash out

The aim of the invention is to increase the cementing efficiency by reducing the likelihood of rupture of the continuity of the flow of cement slurry during its movement in the annulus, as well as reducing the likelihood of trapping an additional column with cement slurry entering the bosad column.

This goal is achieved by the fact that simultaneously with the pumping of the grouting fluid into the annular space of the casing, the drilling fluid is circulated through an additional column and the inner channel of the casing,

filling element 5 and flushing channels 6 “At the wellhead, the unit is centered by a centralizer 12” The sealing unit is connected to an additional column using current technology.

On Aig. 1-2, a general casing cementing diagram is shown, the constituent elements of which are casing 1 equipped with a seating seat 2 and additional string 3 equipped with a flushing sealing unit k having a pack

5 filling element and flushing channels 6 “At the wellhead, it is installed centered by a centralizer 12” The sealing unit is connected to the complement of a preventer 7 having a branch 8 with a pressure gauge 9, as well as glands 10 and branch 110 of an additional column5

0

5

solid column sub 13 s; left-handed thread.

The method is implemented as follows

A casing 1 with a landing seat 2 and an additional casing 3 with a flushing sealing unit k are lowered into the well. The casing at the mouth is sealed with a preventer 7. The space between the casing and the additional columns is sealed with an oil seal 100

After flushing the casing with direct and reverse circulation into the annulus through the outlet 8 with closed shutter 7, grout is injected. At the same time, flushing fluid begins to be pumped through an additional pipe string, which, as well as cement slurry, from the annulus expands to the wellhead through port 11 (Fig. 1). In this case, the supply of washing liquid is controlled so that the pressure on the pressure gauge 9 does not drop below zero when pumping cement slurry (about 0.2-0.5 MPa). The volume of grouting fluid injected into the well is calculated from the volume of grouting fluid required to fill the annulus and the volume of grouting fluid required to form a mixing zone.

After the cement slurry enters the casing, the additional string is admitted and the sealing seat of the landing seat 2o is closed by sealing the flushing fluid through the additional string until the mixing zone of the cement slurry is completely washed out from the casing (Fig. 2). After the setting of the grouting mortar on the bottom of the well, the additional column is removed to the surface (Fig. 3) about

A distinctive feature of the method from the prototype is that the cement slurry arriving. inside the casing, immediately mixes with the flow of flushing fluid and is washed out of the string without causing an emergency.

the speed of the cement slurry in the annulus is also controlled, which avoids the discontinuity of the flow of the cement slurry.

An example of a specific implementation.

It is necessary to cement the casing with a diameter, l68 M „, in a well with a depth of N-1500 M and a diameter of 0.216 M / At a depth of h 1 (PO N there is an absorbing horizon that does not allow the cement slurry to rise upstream with direct circulation. Static temperature at Bottom hole - 65 ° C. “Portland cement mortar having a setting time of tw, c 2-30

to s.

  hours

Casing cementing is performed by a reverse circulation method.

A casing string is lowered into the well, and then an additional tubing string with a diameter of 0, P73 M is tested. The docking unit is pressure tested. Then, the reverse circulation of the drilling fluid is restored, and the grouting fluid is pumped into the behind-the-column space with a closed preventer. The grouting volume V is determined as the sum of the volume

TP annular space of cement slurry

total education 1

(V

t, eat 2 cm

) 0 0

5

5

0

5

0

The mixing zone accounts for approximately 5% of the total volume of grouting mortar 0 thus jV-p. V-JCIK + + 22 + 22.5 m3.

Simultaneously with the injection of the cement slurry, the washing fluid is circulated through an additional column using a cementing unit. Flushing is carried out with a drilling fluid treated with a plasticizer (for example, KSSB 0.1-0.5% of the fluid volume). "When grouting grout is injected, a positive pressure of 0.2-0.5 MPa is maintained on the manometer." Pumping rate Q 20 l / s “When the last portion of the cement slurry is injected, an additional column is allowed to the seat and the grouting is stopped. The cementing time is approximately 20 minutes (t

H

 22D5 0.02

of the drilling fluid through the tubing string continues until the cement slurry is completely washed out, entering the casing string. The tubing string is lifted three hours after the start of cementing (cementing time is 20 minutes, plus the setting time of the cement plug i.

thief

20 minutes). Compass qi promy5

tHC h).

Claims (1)

The claims 1 o The method of reverse cementing casing, including the descent into casing string of the additional string to the depth of the casing string, injecting grouting fluid into the annulus of the casing string, displacing the drilling fluid through its inner channel, shutting off the casing string in its lower part and removing the casing string, characterized in that, with the aim of increasing the cementing efficiency by reducing the likelihood of rupture of the continuity of the flow of cement slurry during its movement in the annular space, as well as reducing the likelihood of sticking Flax column cement slurry, was admitted into the casing simultaneously with the injection of cement slurry in the annulus of the casing is circulated mud column and on additional inner channel the casing string, the drilling fluid circulation is carried out with a variable flow rate over time, provided that backpressure of the grouting mortar is 0.2-0.5 IPa during the entire injection time, and after the casing is shut off, the drilling fluid is circulated continue from the condition of removing the cement slurry from the casing and for the time until the completion of setting the grout in the annular space of the casing; 2 “The method according to claim, characterized in that as a drilling fluid for circulating along an additional column and the inner channel of the casing USE WASHING FLUID WITH TO adding KSSB in it in the amount of Ot1-0.5% of the liquid volume.