SU1017794A1 - Method of monitoring the motion of oil in formation while developing a deposit - Google Patents

Abstract

1. METHOD FOR CONTROLLING OIL MOVEMENT IN A PLATE DURING DEVELOPMENT, including injection of an indicator with a carrier through injection wells, sampling from production wells and determining the presence and time of occurrence of an indicator with a carrier, characterized in that filtering oil over the entire area of the developed reservoir and simplifying the indicator registration process; separate fractions of oil extracted from the reservoir are used as a carrier. 2. The method according to claim 1, characterized in that 40-230 ° C is used as the quality of (L specific oil fractions. Fractions (c), c:

Description

with

4ib The invention relates to the development of oil deposits and can be used to monitor their development. The known method of controlling the movement of oil in the reservoir during the development of a reservoir by the method of displacement with injection water, consists in introducing tritium oxide as an indicator into the injection water, pumping the labeled water into the formation through the injection well, periodically sampling water and by the presence and time of registration of tritium in the extracted samples, assuming that the regime of oil displacement of oil has a piston character, control is carried out for the movement of oil in the reservoir tl / The disadvantage of this method Sob is the labeling indicator of the injection itself. water. Water, having its own physicochemical properties other than oil, moves in a reservoir with a velocity different from the filtration rate of oil. As a result of the implementation of this method, the obtained information characterizes the filtration of the injected water, and not oil, and the control is carried out over the distribution of the injected water through the formation. Pr implementation of oil production by pumping into the reservoir gas under pressure control based on this method is not feasible. In addition, this method allows to control the movement of water from only one injection well, i.e., only solves the point problem. It is impossible to control the movement of oil over the entire area under the action of injected water from all the injection wells of the site. A method is also known to control the movement of oil in the reservoir during reservoir development, which consists of simultaneously pumping on the studied oil reservoir with the carrier, several different indicators in water in several injection wells, one indicator being injected into each of the injection wells, and in the streams flowing into production wells separate o, record the content of all used indicators and control the movement of oil in the reservoir by the time they pass. 2. The disadvantage of this method is that the indicators are introduced with pumped water, which does not allow controlling the movement of the oil itself with sufficient accuracy In addition, for registering various indicators, different recording equipment is required (ionizing radiation counters, installations for chemical analysis, photocalorimeters, etc.) to register each of the indicators. - different. The purpose of the invention is to improve the accuracy of monitoring the filtration of oil over the entire area of the developed reservoir and to simplify the process of registering the indicator. The goal is achieved in that according to the method of controlling the movement of oil in the reservoir during reservoir development, including the introduction into the reservoir through injection wells of the indicator with the carrier, sampling from production wells and determining the presence and time of occurrence of the indicator with the carrier, separate fractions selected from the reservoir of oil. And as such separate fractions use fractions with T., 40-230 ° C. The implementation of the method includes the following sequence of operations. Preparation of several labeled petroleum-based fluids, with one oil fraction labeled in each labeled fluid — in each fluid its oil. The labeling is carried out with either a radioactive tracer, such as tritium, or a chemical tracer, such as fluorine. The concentration of the indicator in the labeled liquid is known. Injection of labeled fluids into wells, with one labeled fluid being pumped into one well. B. Depending on the stage of development of a deposit, injection is carried out according to one of the following schemes. Before the start of the flooding, the labeled fluids are pumped into the neighboring wells, which are transferred to the injection. If the flooding is already underway, the labeled fluids are pumped into adjacent production wells of the first or second row. The injection of labeled, fluid is carried out using a cementing agent. After injection of the labeled fluid into the reservoir, it is pushed out of the well by pumping untreated oil. After injection of the labeled fluid, the development of the reservoir continues, i.e. water is injected into the injection wells. Samples of oil are taken from the well of production wells, samples are dispersed into fractions, and frac tions of the indicator are analyzed in fractions. An analysis of the measured concentrations makes it possible to estimate the dynamics of the filtration of oil through the reservoir during the development process. The introduction of a label into various fractions of oil practically does not change the physicochemical properties of the oil itself, and the movement of labeled oil is reliable7

Claims (2)

1. METHOD FOR OIL MOTION CONTROL IN THE FORMATION WHEN DEVELOPING DEPOSITS, including introducing an indicator with a carrier into injection formations through injection wells, sampling from production wells and determining the presence and time of occurrence of an indicator with carrier, characterized in that, in order to improve the accuracy of filtration control oil over the entire area of the developed reservoir and simplification of the indicator registration process, separate fractions of oil selected from the reservoir are used as a carrier. 2. The method according to claim 1, characterized by the fact that as separate fractions of oil using fractions with T _KIP = 40-230 ° C. (6D