SU1100603A1 - Method of determination of horizon meaningful for geochemical sampling in locating oil and gas deposits - Google Patents

Abstract

A METHOD FOR DETERMINING A REPRESENTATIVE FOR GEOCHEMICAL RESPONSE OF THE HORIZON IN THE SEARCH OF OIL AND GAS DEPOSITS, including drilling wells, sampling the rocks and determining in them the components that have migrated from the deposits, including hydrocarbon gases, with which the aim of the project is to identify the ones that have migrated from the deposits, including hydrocarbons, which are different, with the aim of the aim of the searches, additionally determine the filtration rate of groundwater, the permeability and the coefficient of molecular diffusion of rocks, while the reservoir, characterized by a Peclet number less than one, is considered as edstavitelnogo for geochemical horizon in prospecting for oil and gas. “2

Description

 This invention relates to geochemistry and can be used in the search for oil and gas deposits. The known method, according to which, during a direct geochemical search for oil and gas deposits, as a representative horizon for testing, the water-resistant horizon 1 maintained over the surface 1 is usually taken from the day surface. However, this method is effective only in regional studies. The closest in technical essence and the achieved result to the proposed is a method of detecting a representative horizon for testing in geochemical searches for oil and gas fields, which consists in drilling a well, sampling rocks and their physico-chemical analysis with the determination of components migrated from them including the content of dispersed organic carbon and hydrocarbon gases. Additionally, the content of rock-forming particles with a size of no more than 0.01 mm is determined, while the formation with the content of these particles is 60-100 wt.%, And the scattered organic carbon is 0-5 wt.% (Assuming that its roof is located hypsometrically below the absolute local level). | base erosion) refer to the representative horizon 2J. The known method is very laborious as it requires additional granulometric determinations and the content of dispersed organic carbon. In many oil-and-gas-bearing regions, thick layers of clayey rocks are widely developed; consequently, under these conditions, almost any horizon will contain particles of no more than 0.01 mm in an amount from 60 to 100%. Oil and gas deposits may overlap with coal seams, in which the carbon content reaches 40-70% or more, and these seams are absorption barriers for hydrocarbons migrating from the bottom. All this reduces the efficiency of the study. The purpose of the invention is to increase the efficiency of direct searches. This goal is achieved by the fact that according to the method of determining the representative for geochemical sampling, the horizon at. searching for oil and gas fields, including drilling, sampling and determining the components that have migrated from the reservoirs, including hydrocarbon gases, additionally determine the filtration rate of groundwater, permeability and the coefficient of molecular diffusion of the rocks less than one is considered to be representative of geochemical sampling of the horizon when searching for oil and gas fields. The Peckle number is determined from the ratio Pe (mu) / in where V is the filtration rate, cm / s; K - permeability, cm; D is the molecular diffusion coefficient,. At values of the Peclet number greater than 1, convective transfer of matter prevails, and less diffusion one. Consequently, the reference geochemical horizon must be characterized by a Peclet number of not more than one. PRI m e-p. Application of the method on the Kosmachsky oil field (Internal zone of the Pre-Carpathian trough). Above this deposit, 7 wells 100 m deep each were drilled in the oil-bearing contour. Samples of rocks for gas analysis were taken after every 10 m of penetration. Gas is desorbed from rocks by the method of thermal vacuum degassing and then analyzed on a gas chromatograph Geochemist. The filtration rate of water was determined by an indicator method (sodium chloride was used as an indicator, since groundwater is fresh at depths of 100 m), permeability was measured on a Kamensky device, and molecular diffusion coefficient was measured on a membrane apparatus with a fixed ion concentration by changing the electrical conductivity of the solution. In tab. 1 shows the data for the determination of methane adsorbed by the rock. Table 1

Continued table. one

Previous reference studies have shown that concentrations of meth up to 0.5 are abnormal. If methane concentration is lower, then the well is calculated from the productivity outside the contour. Tab. 1 allows calculating the percentage of a correct prediction depending on the Peclet number (all wells are laid in the productivity contour). The calculation results are given in Table. 2; . Table As can be seen from the table. 2., already at the Peclet number of 0.93 (which corresponds to the level of 30 m from the surface of the earth), the oil reservoir correctly diagnosed 6 out of 7 wells, which is 85.7%. This is a fairly high resolution. Therefore, a level of 30 m can be considered representative of the geochemical sampling horizon, and in direct oil searches in this area there is no need to drill deeper wells. The prototype method under the conditions of the Inner zone of the Pre-Carpathian trough is generally not applicable, since the rock strata here lie at angles of 30-40 ° and more. Therefore, the same reservoir at a relatively short distance can occur both below and above the erosion base (the prototype method allows occurrence of the test for testing the horizon only below the absolute level of the local erosion base). The peculiarity of the Pre-carp morphology is such that some production wells are located at altitudes of 500-600 m above sea level, i.e. well above the river valleys. The proposed method was also tested on the north-western shelf of the Black Sea. As an example (Table 3), the definitions of methane desorbed from the rocks within the gas-bearing contour (Golitsyn Bank) are given.

Claims (1)

METHOD FOR DETERMINING REPRESENTATIVE FOR GEOCHEMICAL OPRO BEATING OF THE HORIZON WHEN SEARCHING FOR OIL AND GAS DEPOSITS, including drilling wells, taking rock samples and identifying components that migrated from the deposits, including hydrocarbon gases, characterized in that, in order to increase the efficiency of direct searches, they additionally determine the rate of groundwater filtration, the permeability and coefficient of molecular diffusion of rocks, while the reservoir, characterized by a Peclet number less than unity, is considered as representative of the horizon for geochemical testing in the search x oil and gas fields. I claim them 20