SU945401A1 - Method of measuring formation pressure - Google Patents

Description

pressure and temperature, and are subject to the action of interstitial and all-round pressure equal to the geostatic pressure at the depth of the rock. Then the interstitial pressure is reduced, and the pressure of the all-round compression is kept constant and the value of the interstitial pressure, at which there is a sharp increase in the strain rate of the sample, is determined by the formation pressure C3. The disadvantage of this method is that, due to the inertia of the deformation process, the moment of fixation of the reservoir pressure and the moment of sudden change in the strain rate of the sample are shifted in time, which causes an error in determining the numerical value of the reservoir pressure. The purpose of the invention is to improve the accuracy of determining reservoir pressure in a well. The goal is achieved by sticking the electrical resistivity of the formation under investigation, for each fixed value of the intrapore pressure the specific electrical resistance of the sample is measured, and the value of the reservoir pressure is judged by the value of the interstitial pressure of the sample, at which its specific electrical resistance and resistance of the sample under study. seam coincide. The drawing shows the UFS-2 setup for examining rock samples under high temperature and pressure conditions. The method is as follows. in a way. Using electric logging, for example, BKZ, BK, IR, the specific electrical resistance of the studied reservoir is determined. Using thermowelling, for example, an electrometer can determine the temperature. Then the sample (core), extracted from the studied formation, is extracted, saturated with fluid, which the studied formation is saturated with, is placed into the installation simulating formation conditions (temperature and total pressure equal to the geostatistical depth at the reservoir depth). . By successively changing the interfacial pressure, at constant values of temperature and pressure of full compression, the specific electrical resistance of the sample is measured. According to the value of the interstitial pressure, at which the specific electrical resistance of the sample becomes equal to the specific electrical resistance of the formation being studied, the formation pressure is determined. This method was implemented at the Bulla Island field (Baku Archipelago, well 537). In the range of 4968–5033 m, electric logging with probes longer than 2 m was measured and the electrical resistivity of the aquifer was determined (Homielichina amounted to 2.3 OMfM), as well as thermal logging by an electrothermometer and the temperature was determined in the interval under study, equal. In this well, in the interval of the reservoir bed (5024-5027 m), a rock sample was taken, cut off and dried at t 105 ° C, saturated with reservoir water and placed in the UFS-2 unit. The UVS-2 installation for examining rock samples at high thermobaric conditions consists of a high pressure chamber 1 into which a rock sample is placed (to create a reservoir temperature, the chamber is placed in a thermostat that maintains a temperature equal to the reservoir), valves 2 of the NGR pump -10005, pressure gauge 3, separation cylinder 4, drain tank 5. To measure the electrical resistivity of the rock sample, a two-electrode measuring setup is used, consisting of measuring electrodes j6, generator signal torus PP-33 (power source), the indicator (lampoyy millivoltmeter OT-13 or oscilloscope type SI-1). Measurement scheme - pavement, including complex measuring arm auxiliary shoulders RjH Rj. The sample of the rock serves as the active arm R,). The rock sample in the chamber is subjected to a comprehensive pressure equal to the geostatic pressure at the depth of the sample (Pgeost 1150), and at reservoir temperature (C) and with the interstitial pressure equal to the geostatic pressure at this depth (P 500-10 kPa), the specific electrical resistance of the sample is measured (, 35 Ohm.m). The intra-pore pressure is reduced to 40010 kPa and the specific electrical resistance of the sample is measured. The resistivity value is 2.40 OMM. Again increase the pore pressure up to 500-10 kPa. The following electrical resistivity measurement is performed at interstitial pressure exceeding hydrostatic. The electrical resistivity is 2.30 Ot-M. The electrical resistivity values of the formation and the rock sample coincide at 600–10 Pa.

Claims (1)

Claim A method for determining reservoir pressure, including the impact on the rock sample extracted from the reservoir with a comprehensive pressure equal to the geostatic pressure at the rock depth, a temperature equal to the reservoir, and a variable inter-pore pressure, such that in order to increase the accuracy of determining the reservoir pressure, measure the electrical resistivity of the investigated formation, at each fixed value! the inter-pore pressure · measure the electrical resistivity of the sample, and the magnitude of the reservoir pressure is judged by the value of the inter-pore pressure of the specimen, at which its electrical resistivity and the resistance of the investigated formation are the same. The relative error by the known method is 17%, and by the proposed 3%. The accuracy of determining reservoir pressure by the proposed method is higher than by the known. The proposed method allows to increase the accuracy of determining reservoir pressures in drilling wells and can be used to evaluate