SU855588A1 - Method of locating oil and gas deposits - Google Patents

Description

(54) METHOD OF SEARCHING FOR OIL AND GAS DEPOSITS

The invention relates to the search for oil and gas fields, in particular, to the geochemical methods of searching for accumulations of oil and gas in coal-bearing areas. The known method of geochemical prospecting of oil and gas, the conditions being that the extraction of hydrocarbon gases produces d; 1 lithologically homogeneous differences of rocks, establishes the correlation and coefficient of correlation between saturated and unsaturated hydrocarbons, and in relation to the sum of the concentrations of saturated hydrocarbons to the sum of the concentrations of unsaturated, the ratio of the concentration of methane to the sum of the concentrations of unsaturated hydrocarbons and the correlation coefficient separate the gas anomalies and judge the prevalence of upmost hydrocarbons and ploschoschi prospect for oil and gas rij. The disadvantage of this method is the limited possibility of its use, since it is applicable only to areas characterized by the presence in the section only of dispersed organic matter. Also known geochemical cno-i assembly of the search for oil and gas deposits on the reference gasometric horizons,. including drilling wells, choosing a reference horizon, sampling rock samples, degassing samples, analyzing gas extracted from them, measuring the content of diffuse organic matter in rocks (), determining the contrast ratio of the detected gas anomaly from hydrocarbon components, determining the ratios between the various components in the composition gases of rocks and on the basis of the magnitude of the contrast ratio of the detected gas anomaly (Cc), taking into account the nature of the ratios between the various components in the composition of rocks - an assessment of the prospects of petroleum potential of search Pls Tsadi 2. The known method does not take into account the influence of coal seams with high gas-generating properties on the results of geochemical studies on the gasometric reference horizon, since one of the main characteristics of the reference horizon is not present in it. synthetic organic matter.

The purpose of the invention is to increase the efficiency of searches for oil and gas deposits in coal-bearing areas.

The goal is achieved by the fact that in the method of geochemical prospecting of oil and gas fields, including drilling wells, choosing a reference horizon, sampling rocks, degassing them, analyzing the extracted gas, measuring the content of diffuse organic matter in rocks, determining the contrast ratio of the detected gas anomaly for methane or the sum of heavy hydrocarbons determination of the ratios between the various components in the composition of the gases of the rocks in the reference horizon containing the concentrated organic substance (coal. plastics), samples of coal are taken, coal ratio is determined at test points and ratios between different components in free coal gases, syngenetic methane formation intensity index is determined for the reference horizon and by contrast ratio of the detected methane anomaly and syngenetic intensity indicator methane formation, and also taking into account the nature of the ratios between the various components in the gases of the rocks and coal,

for oil and gas. I

The method is based on the following assumptions.

In the carbon-saturated areas of the reference horizon, a greater amount of syngenetic gas to the rocks is also generated. At present, only the process of methane formation is characterized by coal formation. The coal depth of the area is determined by the total coal-bearing coefficient (K), which is an indicator of the ratio of the total thickness of the coal interlayers to the thickness of the enclosing sediments at each sampling point. The change in the area of the total organic matter, including the scattered (Corg concentrated (K °), its shape (SORG + 0.36 Ku)) allows to contour the areas of maximum syngenetic methane formation and determine the intensity index of syngenetic methane formation tKy) . Provided that the supporting horizon lies in the same catagenesis zone, i.e. under equal thermobaric conditions, when the gas-generating properties of organic matter remain unchanged, is determined as the ratio

MI, to

Int

maximum and minimum values of total organic matter at different test points of the reference

mountains ", about" ".... to ..- | 5 -5; 5ГЕ |

In this case, equal for the reference horizon conditions for the preservation of hydrocarbon gases and the close physical properties of the coal at all test points are provided. To isolate zones of higher epigenetic gas-rich rocks, along with studying changes in the amount of hydrocarbon gases, a set of geological and geochemical criteria is used, including the study of different ratios between hydrocarbon components, to separate different sources of gases: syngenetic, i.e. associated with the gas-generating properties of the organic matter of the enclosing sediments, and zigenetic caused by the flow of gases from some other sources. In the coal-bearing area, it is necessary to study the composition of the free gases of the coal of the reference horizon, since they have a lawsuit affecting the epigeneticity of gases. .

The method is carried out as follows.

In the section of drilling wells for the reference horizon, a stratigraphic complex is selected, which is part of the coal-bearing strata.

Samples of rocks and coal and degassing are taken from the reference horizon. The extracted gas is analyzed and the content of diffuse organic matter in the rocks is measured .Cjjpj. ). In the reference horizon, the change in the area of the total coal-bearing coefficient (KJ) is determined and the intensity index is determined (K syngenetic methane formation in the reference horizon using the formula

k - (Sorg - to ° y)

nnt

i ()

The anomalously high gas-concentration rocks of the reference horizon are identified and the magnitude of their contrast ratio (for methane) is determined. The nature of the ratios between the different components in the gases of the rocks and coals is determined to determine the degree of gas epigeneticity in the anomalous regions. according to the ratio of the contrast ratio of the methane anomaly (K) and the intensity index of the syngenetic methane formation (Qu) to the reference horizon, as well as by the nature of the pr detecting epigenetic gases. Among perspektivshlh include t anomalies in which K 7 kt epigenetic character gas is manifested throughout the section reference horizon rocks anomaliynyh

TO4Ketx testing, among the false ones, in which K 4 K and the epigenetic nature of the gas are observed in the occurrence intervals of the coal seams.

The proposed method of geochemical prospecting of oil and gas allows significantly increasing the productivity of geochemical prospecting of oil and gas deposits through the development of coal-bearing areas characterized by a large scale of syngenetic gas formation, increases the reliability of assessing the petroleum potential of local areas by rejecting false hydrocarbon anomalies and issuing more reliable recommendations deep exploratory drilling.

Claims (2)

1. POI.SKOV method of oil and pelvic fields, including drilling wells, choosing a reference horizon, sampling rocks, degassing them, analyzing the extracted gas, measuring the content of diffuse organic matter in rocks, determining the contrast ratio of the detected gas anomaly by methane or the amount heavy hydrocarbons, the determination of the ratios between the various components in the composition of the gases of the rocks, is distinguished by the fact that, in order to increase the efficiency of oil and gas exploration in coal-bearing areas, in the reference horizon, coal seams, coal samples are taken, the coal-bearing coefficient is determined at test points, the ratios between the various components in the free coal gases, the syngenetic methane image intensity index is determined for the reference horizon and the contrast ratio of the detected methane anomaly is determined and the syngenetic methane formation intensity index and also taking into account the nature of the ratios between the various components in the gases of the rocks and coal, the area’s prospects for eft and gas. Sources of information taken into account in the examination 1. Author, USSR certificate 483644, cl. G 01 V 9/00, published 5 1975. 2. Methodical recommendations on geochemical methods of oil and gas exploration. M., ONTI VNIIYAGG, 1975, p. 99-101 (prototype).