SU832081A1 - Method of measuring the formation pressure of collector rock - Google Patents

Description

(54) METHOD FOR DETERMINING PLASTIC PRESSURE

COLLECTORS

one

The invention relates to well survey methods and may find application in prospecting, exploration and development of oil and gas fields.

A known method for determining reservoir pressure during the dynamic exploration of wells 1.

There is also known a method for determining reservoir formation pressure, which includes measurement of bottomhole pressure and flow rate of well production under different sampling conditions 2.

The main disadvantages of this method are its applicability only for wells with completed drilling (operational or prepared for testing) and the impossibility of using it in the process of drilling with flushing fluid.

The purpose of the invention is to provide information on reservoir pressure in the process of drilling wells with flushing.

This goal is achieved in that the measurements are carried out during the circulation of the washing liquid with an additional measurement of the flow rate of the completed washing liquid.

In the invention, the conditions for the hydrodynamic interaction of the washing fluid with rock solutions during the drilling process, namely, the Dupuis formula, according to which the established flow rate at the filtration flow is directly proportional to the pressure differential, are used to determine reservoir pressure.

The method is carried out as follows.

The steady-state value of the differential flow and downhole pressure, the absorption of the washing fluid, or the flow of fluid when the reservoir penetrates in the mode determined by the general drilling regulations, i.e., the specified drilling design and penetration conditions, are measured.

The well drilling mode is varied by varying either the density of the drilling fluid or its flow rate (injection pressure). Moreover, with fluid inflow, bottomhole pressure is increased up to the hydraulic fracturing pressure under the intermediate column shoe, and when the washing fluid is absorbed, it is lowered within or to the hydrostatic pressure of the flushing liquid column at the well bottom or to the value of the known reservoir pressure of the overlying formation, taking into account depth differences.

Again, in this mode, the steady-state value of the differential flow rate and the bottomhole pressure is again measured during the drain, flushing fluid or fluid flow when the collector penetrates the new regime.

The value of reservoir pressure is calculated by the formula

p & Q. () - AQ (HfPv)

-,, la, l

where AQ-i; Ru is, respectively, the steady-state differential flow rate of the flushing fluid, the density of the flushing fluid, and the hydraulic resistance in the annular space of the well under the conditions specified by the drilling rule;

 PV is, respectively, the steady-state differential flow rate of the drilling fluid, the density of the washing fluid, the hydraulic resistance in the annular space of the well with altered drilling,

H - depth of the bottom hole when changing modes.

The geological efficiency of the method is the ability to obtain current information during drilling about reservoir pressures throughout the entire borehole section.

Technological efficiency is the ability to optimize the drilling mode by changing the quality of the flushing fluid or its flow rate (injection pressure) continuously in the process.

drilling without stopping the well.

Economic efficiency is determined by eliminating downtime during the drilling process and increasing the rate of penetration, and optimal drilling mode saves the drilling tool and

materials.

Claims (2)

1. Korotaev Yu. P., Polnsky A. P. Exploitation of gas wells. M., Gostoptehizdat, 1961, p. 202-203. 2. Zhdanov M. A., Kartsev A. A. Neftepromyslov, geologists and hydrogeologists. M., Gostoptekhizdat, 1958, p. 130 (prototype).