RU2190098C1 - Method of revealing oil deposit - Google Patents

Abstract

FIELD: oil and gas production. SUBSTANCE: when revealing oil deposit with profiled configuration, one treats preliminarily ground sample to isolate organics. Hydrocarbons are assayed on molecular level by way of investigating distribution of linear alkanes and isoprenoids. Saturated hydrocarbons are separated from organic material and distribution of cyclic hydrocarbons is investigated. All distributions found are used as controlled information parameters witnessing existence and origin of oil deposit. EFFECT: facilitated oil exploration, in particular determination of nature of oil deposit origin without precise indication on existence or nonexistence of oil deposit under a certain point. 3 cl

Description

 The invention relates to the oil industry and can be used to determine the presence of oil fields with a contour of complex configuration.

 A known method of monitoring the development of oil deposits, including conducting field, geophysical well surveys (GIS) and laboratory studies of the properties of reservoir fluids and porous media. To increase the reliability and efficiency of the GIS method, Kendal statistics are used using the mathematical apparatus, for which a detailed volumetric geological and hydrodynamic model (DOGTDM) of a layered heterogeneous formation is constructed by partitioning and correlation of sections by constructing local geological and statistical sections, by tracking interlayers and by zones of characteristic permeabilities. Based on the constructed DOGTDM oil reservoir is divided into local representative areas with characteristic geological and filtration characteristics. The accumulated information is analyzed, carried out control studies, and based on the results, diagrams of oil reserves production are built, which are used to judge the nature of the reservoir development by area and section (see, for example, description of the invention to RF patent 2119583, class E 21 B 49/00, publ. . 1998).

 The duration and high cost of the research done makes this method unattractive.

 The closest known for its technical nature and the achieved result is the selected as a prototype method for determining the presence of an oil reservoir, in which soil samples are taken, hydrocarbon samples are analyzed and controlled parameters are determined by which the presence of an oil reservoir is judged (see, for example, Description of the invention to US patent 3975157, NKI 436-31, publ. 1976).

 This method allows you to determine the nature of the origin of the oil deposits without an exact indication of the specific presence or absence of an oil field in the bowels of this point.

 The essence of the claimed invention is expressed in the aggregate of essential features sufficient to achieve the technical result provided by the invention, which is expressed in the ability to accurately indicate the presence or absence of an oil field in the bowels of a given point.

 The specified technical result is achieved by the fact that in the method for determining the presence of an oil deposit, in which soil samples are taken, hydrocarbon samples are analyzed and controlled informative parameters are determined by which the presence of oil deposits is judged, soil samples are processed and organic matter is extracted from them, analysis of hydrocarbons of organic matter is carried out at the molecular level by studying the distribution of normal alkanes and isoprenoids, isolated on yschennye hydrocarbons from organic substances and investigating the distribution of cyclic hydrocarbons as well as informative parameters controlled using the distribution of normal alkanes and isoprenoids and cyclic hydrocarbon organic material, the nature of the distribution are respectively judged on the availability and source of the oil reservoir.

 In addition, the distribution of normal alkanes and isoprenoids of organic matter can be investigated by capillary gas-liquid chromatography, and the distribution of cyclic hydrocarbons of organic matter can be studied by chromatography-mass spectrometry.

 Comparison of the claimed technical solution with the prototype made it possible to establish compliance with its criterion of "novelty", since it is not known from the prior art.

 The proposed method is industrially applicable existing technical means and meets the criterion of "inventive step", because it does not explicitly follow from the prior art, while the latter does not reveal any transformations characterized by significant features distinguishing from the prototype to achieve the specified technical result.

 Thus, the proposed technical solution meets the established conditions of patentability of the invention.

 The other known technical solutions for a similar purpose with similar significant features by the applicant was not found.

The proposed method for determining the presence of an oil deposit is based on the geochemical method of searching for hydrocarbons by biomarkers and includes the sequential implementation of the following actions:
1) when conducting geochemical seismic surveys, at least 50 soil samples are taken at a depth of 10-14 m;
2) carry out drying, grinding and extraction of organic matter (S) of soil samples with chloroform in a Soxhlet apparatus;
3) examine the distribution of normal alkanes (n-alkanes) and isoprenoids of the organic residue of soil samples by capillary gas-liquid chromatography;
4) the extraction of saturated hydrocarbons from organic matter of soil samples is carried out and the distribution of cyclic hydrocarbons — biomarkers (steranes, terpans, etc.) —is studied by means of chromatography-mass spectrometry;
5) the analysis of hydrocarbons of organic matter is carried out at the molecular level by studying the distribution of n-alkanes and isoprenoids. By the nature of the distribution of n-alkanes and isoprenoids, the presence of an oil reservoir is judged because they determine the intense, weak or lack of "breathing" of hydrocarbons. The presence on the chromatogram of light n-alkanes of composition C ₁₀ and higher in greater or lesser amounts indicates intense or weak "respiration" of the field. The presence on the chromatogram of only n-alkanes of composition C ₂₁ -C ₃₃ with a high content of odd n-alkanes indicates the absence of “respiration” of the deposit at this point. This makes it possible to determine with a rather high degree of accuracy the presence or absence of an oil field in the bowels of a given point;
6) by the nature of the distribution of cyclic hydrocarbons (steranes and terpans), possible oil source strata are determined, i.e. it is possible to determine the source of the oil reservoir.

So, for example, by the ratio of regular sterans of composition C ₂₇ -C ₂₉ , pristan, phytane, etc. the initial OM is judged, the lithastical environment of accumulation is judged by the ratio of diasterans to regular stereans, the degree of thermal maturity of the OM is judged by the ratio of C ₂₉ steranes isomers, etc.

 The proposed method is cost-effective and allows you to give an effective and accurate rapid assessment of the presence or absence of oil deposits and their possible source, especially in the permafrost of inaccessible areas of the Far North.

Claims (3)

 1. The method of determining the presence of an oil deposit, in which soil samples are taken, hydrocarbon samples are analyzed and controlled informative parameters are determined by which the presence of an oil deposit is judged, characterized in that the soil samples are preliminarily processed and organic matter is extracted from them, hydrocarbon analysis organic matter is carried out at the molecular level by studying the distribution of normal alkanes and isoprenoids, saturated hydrocarbons are extracted from organic Skog substances and investigating the distribution of cyclic hydrocarbons as well as informative parameters controlled using the distribution of normal alkanes and isoprenoids and cyclic hydrocarbon organic material, the nature of which is judged rapredeleniya respectively on the availability and source of the oil reservoir.  2. The method according to p. 1, characterized in that the distribution of normal alkanes and isoprenoids of organic matter is carried out by capillary gas-liquid chromatography.  3. The method according to p. 1, characterized in that the study of the distribution of cyclic hydrocarbons of organic matter is carried out by chromatography-mass spectrometry.