RU2602424C1 - Method of calculating hydrocarbon reserves in reservoirs domanik deposits - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil industry and can be used in calculation of hydrocarbon reserves in reservoirs domanik deposits. Method of calculating hydrocarbon reserves in reservoirs of domanik deposits comprises performing geophysical survey in existing wells, passing through intervals of domanik deposits. Geophysical survey used in method is pulse spectrometric neutron gamma-ray logging. For comparison base when determining productive intervals method uses data of pulse spectrometric neutron gamma-ray logging of well, perforated imm range of domanik deposits, in which formation hydraulic fracturing is performed and industrial oil flow rate is obtained. Besides pulse spectrometric neutron gamma-ray logging method in computing obtained data, invention uses data of other geophysical survey methods.

EFFECT: calculation of hydrocarbon reserves in reservoirs of domanik deposits based on geophysical survey of existing wells.

1 cl

Description

The invention relates to the oil industry and may find application in calculating hydrocarbon reserves in reservoirs of Domanik deposits.

There is a known method of calculating reserves of Mendymian-Domanic deposits by comparing data obtained by comparing the test results of the formations and the parameters of their oil saturation determined by geophysical surveys of wells, the criteria for the allocation of oil-saturated reservoirs by oil saturation coefficient are justified. A value of 55% is recognized as the conditional value of oil saturation (V.A. Shakirov. Study of the geological and production features of complex carbonate reservoirs of the Semiluksky and Mendymsky horizons (using the example of the Romashkinskoye field). (Abstract for the degree of candidate of geological and mineralogical sciences. Kazan. Kazan State University , 2006, p. 8-12).

The disadvantage of this method is the need to test formations for oil flow in each well, i.e. not only the need for drilling wells, but also their trial operation.

Closest to the proposed invention in technical essence is a method for calculating reserves of Domanik deposits by drilling exploratory wells, coring and analyzing the presence of hydrocarbons from the core (Ananyev V.V., Smelkov V.M., Pronin N.V. Forecasted resource base mendym -Domanik deposits as the main source of hydrocarbon raw materials in the central regions of the Volga-Ural oil and gas province. Geology of oil and gas, 1-2007).

The disadvantage of this method is the need for drilling exploratory expensive wells and coring.

The proposed invention solves the problem of calculating hydrocarbon reserves in reservoirs of Domanik deposits based on geophysical studies of existing wells.

The problem is solved in that in the method for calculating hydrocarbon reserves in reservoirs of dominic deposits, including geophysical studies and calculation of the obtained data, according to the invention, geophysical studies are carried out in existing wells passing through intervals of dominic deposits, as a method of geophysical studies using the method of pulsed spectrometric neutron gamma logging, and for the comparison base when determining the productive intervals using the data of the pulse method spectrometric neutron-gamma logging wells punched in the range Domanik Fat, wherein held and fracturing a commercial oil production.

In addition to the method of pulsed spectrometric neutron gamma-ray logging, when calculating the obtained data, the data of other methods of geophysical studies can be additionally used.

SUMMARY OF THE INVENTION

The development of the fuel and energy complex of Russia is directly related to the dynamics of changes in hydrocarbon reserves. Many deposits have been in operation for more than 30-40 years. During this time, billions tons of oil were extracted from them. At the same time, due to the imperfection of previously used oil production technologies, the lack of the necessary volume of geophysical and geological information due to the limited complex of geophysical exploration of wells used during drilling and development control, a significant amount of oil remained in the bowels. Missed oil-saturated intervals not covered by development, today represent a serious reserve for revaluation of reserves at the late stage of development. Domanic deposits are also referred to such intervals. Beds of Domanik deposits have a complex ambiguous structure both in terms of reservoir properties and oil saturation. In one interval, both oil-saturated layers and non-oil-saturated layers may be contained. Moreover, reservoir properties are close to those of a non-collector. So, porosity, permeability approach zero, fracture of the reservoir in some places has a pronounced character, in places it is completely absent.

A huge number of wells were drilled through the intervals of Domanik deposits, cased and not perforated in the intervals of Domanik deposits. Under these conditions, drilling additional exploratory wells is expensive and irrational, and coring from existing wells is impossible. It is of interest to use existing wells and through them to conduct geophysical studies to determine productive intervals in the total interval of Domanic deposits and oil-saturated zones of the reservoir. The task is further complicated by the fact that when perforating intervals of Domanic deposits and attempting to produce oil, as a rule, even in the oil-saturated interval, oil production rates are either completely absent or have very low, non-industrial values of the order of 0.1-0.6 t / day. Industrial flow rates can only be obtained using hydraulic fracturing and subsequent well development.

World experience in conducting geophysical studies to determine the current oil saturation has shown that at present the most effective method is pulsed spectrometric neutron (carbon-oxygen, C / O) gamma ray logging. The main indicators of C / O logging are the ratio of carbon to oxygen COR and the ratio of calcium to silicon CASI. The COR parameter characterizes the prevalence of carbon (C) in the rock with respect to oxygen (O). This parameter is associated with the content of hydrocarbon compounds in the rock. Productive formations are characterized by an excess of carbon compared to water-saturated formations. The CASI parameter reflects the content of calcium (carbonate) and silicon (sandstone) in the rock.

However, the use of C / O logging to determine the oil saturation of reservoirs of Domanic deposits is practically impossible due to the extremely low porosity of the reservoir and the very low value of the oil saturation of the reservoirs. The proposed invention solves the problem of calculating hydrocarbon reserves in reservoirs of Domanik deposits based on geophysical studies of existing wells. The problem is solved as follows.

When calculating hydrocarbon reserves in reservoirs of Domanik deposits, geophysical studies are taken into account in existing wells passing through the intervals of Domanik deposits obtained at the well construction stage. The data from field geophysical studies of wells are taken into account by a standard set of methods of field geophysics. The complex of field-geophysical studies includes the following methods: standard electric logging with a potential probe with joint registration of spontaneous polarization potentials (CS, PS); lateral logging sounding (BKZ) with five plantar gradient probes and one roofing gradient probe; microprobing (MKZ) two installations; radioactive logging (NGK-GK); lateral logging (BK); induction logging (IR); resistivimetry; cavernometry; inclinometry; nuclear magnetic logging (NMR); acoustic logging (AK); gas logging, including general and separate gas analysis, luminescent-bituminological and mechanical characteristics of the studied rocks.

As a method of geophysical studies of cased wells at the stage of well operation, the C / O method is used. For the comparison base, when determining production intervals, the data of the C / O method of logging a control well, perforated in the interval of Domanik deposits, in which hydraulic fracturing was carried out and industrial oil production was obtained, are used. Wells are identified in which there is a coincidence of the logging data with the logging data of the control well. The thickness of the reservoir is determined. The area of the field is delineated by the location of the allocated wells and hydrocarbon reserves are calculated.

When calculating oil reserves in Domanik deposits, use the formula:

, где в - объемный коэффициент пластовой нефти, Y - относительный удельный вес нефти на поверхности.where Qbal is the initial oil reserves in thousand tons, F is the oil area, m ² , h is the average effective oil-saturated thickness of the reservoir, m, m is the average open-porosity coefficient of oil-bearing rocks in deposits, in fractions of a unit, n is the oil saturation coefficient of rocks on average, in fractions of a unit,

where in is the volumetric coefficient of reservoir oil, Y is the relative specific gravity of oil on the surface.

Recoverable oil reserves are determined by the formula:

where Qvizvl - recoverable oil reserves, thousand tons, n - oil recovery coefficient determined by calculation.

The porosity and oil saturation coefficients are calculated from the dependences characteristic of the carbonate deposits of the Upper Devonian of Tatarstan, taking into account the lower limits of porosity and oil saturation. The oil density and conversion factor are taken from the analysis of deep oil samples taken from the sediments involved in the calculation of reserves. The oil recovery factor is taken according to the latest project document. The category of reserves is determined by the results of testing in the reservoir. The reliability of determining oil-bearing areas for deposits is determined, first of all, by the reliability of structural maps on the roof (bottom) of the reservoirs, and for deposits with a lithological screen, by the reliability of this screen.

As a result, it is possible to outline the oil reservoir and determine the oil reserves.

Concrete example

When developing the Bavlinskoye field, the data from logging studies performed at the well construction stage are analyzed. By indirect indications, i.e. porosity, permeability, oil saturation, etc., suggest that in one of the wells in the interval of Domanik deposits there may be a productive formation with industrial oil reserves, possibly manifested after hydraulic fracturing. Stop the selected well. C / O logging is performed in a stopped well. In this control well, COR values are 1.14-1.18 and CASI are 1.05-1.09. The identified interval is perforated, hydraulic fracturing is carried out, the well is mastered. Receive an industrial influx of oil in the amount of 10.6 tons / day.

In other wells of the field, as they stop due to technological interruptions or repairs, they analyze existing logging data and conduct C / O logging. C / O logging data at intervals of Domanik deposits are compared with C / O logging data at intervals of Domanik deposits in a control well in which oil flow after hydraulic fracturing is obtained. In the studied wells, intervals are revealed, and, accordingly, reservoir thicknesses, with similar indicators. Perforation, hydraulic fracturing and well development showed a fairly high convergence of real results with the calculated ones.

Wells with identified indicators are marked on the field’s area, an oil reservoir is outlined.

Balance reserves are calculated by the formula (1)

Recoverable oil reserves are determined by the formula (2)

Qviz = Qbal ∗ n = 5982.9 ∗ 0.22 = 1316 thousand tons

Application of the proposed method will allow to solve the problem of calculating hydrocarbon reserves in reservoirs of Domanik deposits based on geophysical studies of existing wells.

Claims (2)

1. The method of calculating hydrocarbon reserves in reservoirs of Domanik deposits, including geophysical studies and calculation of the data, characterized in that they conduct geophysical studies in existing wells passing through intervals of Domanik deposits, using the method of pulsed spectrometric neutron gamma-ray logging , and for the comparison base when determining productive intervals using the data of the method of pulsed spectrometric throne gamma-ray logging of a well perforated in the interval of Domanic deposits, in which hydraulic fracturing was carried out and an industrial oil production rate was obtained. 2. The method according to claim 1, characterized in that in addition to the method of pulsed spectrometric neutron gamma-ray logging, when calculating the obtained data, additionally use the data of other methods of geophysical research.