SU1199895A1 - Formation-stripping method - Google Patents

Abstract

PLASTIC OPENING METHOD, which includes drilling plastic rocks lying above the reservoir, fixing the plastic casing for the casing and reducing the repression on the roof of the reservoir followed by drilling it, in order to prevent fracturing by reducing the amount of rock pressure in the area of the wellbore; the roof of the formation is opened after completion of the deformation processes in plastic hardened rocks. about

Description

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The invention relates to the construction of wells, in particular to the opening of reservoirs, and will find applications in the oil and gas industry and in exploration. . The purpose of the invention is to prevent hydraulic fracturing by reducing the amount of rock pressure in the area of the wellbore. One of the problems hindering the growth of technical and economic indicators of drilling operations and costly resources is the opening of reservoirs with low fracture gradients, which is complicated when there is a productive horizon in the AHF reservoir and a large thickness. The known methods of opening the reservoir provide for various kinds of technical and technological measures aimed at maximally reducing repression on the roof of the reservoir in the process of drilling. However, as wells deepen due to the growth of the mud back pressure on: the formation, conditions are created for its fracturing and the occurrence of absorption. scheni On the other hand, the fracture gradient is largely determined by the magnitude of the rock pressure, which creates the force of gravity of overburden rocks and prevents the formation and opening of cracks in the formation. A decrease in rock pressure, ceteris paribus, causes a decrease in the fracture gradient. A decrease in the magnitude of the rock pressure around the wellbore may occur when rocks that are prone to plastic deformation occur in the roof of the formation. Reducing the pressure in the well below the rock pressure causes plastic deformation of the fluid rocks, which leads to unloading of the rock pressure in the area adjacent to the wellbore and, consequently, to a decrease in the value of hydraulic fracturing. In this connection, in order to prevent the absorption of drilling mud, the opening of the formation must be carried out after completion of plastic deformations of the flowing rocks, when the mountain pressure is restored to its original value and an increase in the fracture gradient occurs. As a criterion 895, to determine the moment of completion of the process of plastic deformation of rocks can be the data of acoustic cement metering, which characterize the density of contact of the cement stone with the rock and column. The minimum value of the amplitude of the longitudinal wave passing through the column corresponds to the completion of the plastic movement of rocks. Thus, according to the Shurtan field, the deformation processes of halite occurring in the top of the productive formation, according to acoustic cement meters, end 30–40 days after casing cementing, when there is practically no improvement in the density of contact between the cement stone and the column. At the same time, the rock pressure acting on the reservoir is restored to its original value, thereby creating a favorable situation for trouble-free drilling of wells along a productive horizon. If necessary, the process of rock deformations can be artificially accelerated, for example, by barothermal or physico-chemical effects on plastic rocks, depending on their lithological composition. The method is implemented as follows. A well is drilled to the top of a formation with a low fracture pressure. Then, the casing is lowered and cemented into the well with a mandatory overlap of plastic, rock-prone rocks. In the well, a periodic recording of the acoustic cement meter is carried out after several days. The coincidence of the testimony of the previous and subsequent cement metering records in the interval of the occurrence of ductile rocks indicates the completion of their deformation and the restoration of rock pressure transmitted to the formation in the area of the wellbore, well. After establishing this, the roof of the formation is drilled and the well is further deepened according to a known technology. Example. Initial data: the depth of the descent is 245 mm of the conductor 5bb m, the depth of the roof of the seam is 2728 m, the interval of the occurrence of plastic rocks

2620-2706 m, reservoir pressure in the reservoir is 422 kgf / cm and the composition of plastic rocks is halite.

A well to a depth of 2720 m is drilled with a chisel of 215.9 mm on a cd drilling mud with the following parameters: density 1.34-1.36 g / cm2, viscosity 60-70 s, water loss 8 ml / 30 s, SNA 1/10 25 / 72 sg / cm.

To prevent cavern formation in the halite range, the drilling fluid is saturated with common salt. Then, 168.3 mm casing is lowered and cemented into the well. In preparation for opening the productive horizon, acoustic cements are periodically recorded.199895

Tomers 10, 15, 20, 25, 30 and 35 days after cementing the column. As the interpretation of acoustic cement metering data shows, the density

5 contact of cement stone with rock and column in the range of 2620-2706 m is constantly increasing and at 25 days is 90 and 82% respectively. The subsequent measurements of the acoustic cement meter show that there is no contact density between the cement stone and the adjacent surfaces. After this, the roofing of the productive roof is drilled.

15 reservoir and the further deepening of the well, zinc to the design elevation of the known technology. The absorption of the drilling fluid is absent.

Claims (1)

METHOD OF OPENING THE FORMATION, including drilling plastic rocks lying over the reservoir, securing the plastic fords with the casing string and reducing repression on the roof of the formation with its subsequent drilling, so that in order to prevent hydraulic fracturing formation by reducing the magnitude of the unloading of rock pressure in the region of the wellbore, the roof of the reservoir is opened after the completion of deformation processes in plastic rocks. 00 with joint venture