SU1040387A1 - Mountain rock specimen analysis method - Google Patents

Abstract

METHOD OF ANALYSIS OF SAMPLES OF MINING BREEDS, selected during drilling of wells, by treating the rock as a solvent, obtaining oil from it, irradiating with UV light and extracting luminescence of the extract, about-and l and h In order to improve the accuracy of determining the sample's assessment of the samples with reservoir oil, the rock sample is cut perpendicular to the axis and moistened. using a solvent, a flat slice of the sample, stretching the oil by tightly contacting the slice with filter paper, irradiating with UV light the imprint of the stretch on filter paper, comparing the luminescence intensity of the central and peripheral parts, according to the ratio of which the sample is soiled eternal solution. With

Description

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q The invention relates to geochemical methods for analyzing rock samples for the purpose of prospecting and exploration of oil fields. A droplet-luminescent analysis is known, in which a drop of a non-luminescent solvent is applied to the fresh surface of the sample, and a glow is observed at the site of the drop. The form of the luminescent spot that appears, the color and the color change during the evaporation of the solvent gives a preliminary conclusion about the presence of hydrocarbon substances, the nature of their distribution in the rock, their approximate content 13 However, due to the luminescent glow of some mineral, it causes to erroneous conclusions. In addition, it is impossible to divide by this method if the rock sample contains formation oil or is contaminated with technical oil added to the washing solution. A known method of analyzing rock samples taken during well drilling is carried out by treating the rock with a scavenger, obtaining oil from it, irradiating with UV light, and recording luminescence of C 2}. The disadvantage of the known method is the low accuracy of determining the assessment of samples by formation oil. This is due to the fact that the effect of luminescent minerals on the results of the determinations is eliminated by obtaining liquid extracts from crushed rock, which are directly irradiated with ultraviolet rays and compared with the reference collection, or by obtaining from the liquid capillary extracts. on filter paper that is irradiated with ultraviolet rays and compared to their luminescence with that of standard capillary extracts. This does not allow to determine if the sample is contaminated with technical oil from the washing solution. The practice of investigating rock fractures, fissure thresholds and fissure cavernous reservoirs by known methods, in which oil is contained in secondary voids (cracks, leaching pores and caverns), indicates significant difficulties in their separation and the assessment of their oil value. This is due to the fact that the absolute values of the effective capacity in such reservoirs are small and, as a rule, do not exceed 1.5-2%. Considering that not all of this capacity is filled with oil (there is residual water) and that oil can be squeezed out of the core when it is drilled out with drilling mud filtrate under the action of hydrodynamic and capillary forces and due to its degassing when the core rises to the surface then the residual content in the core may be very small and in the best case constitute no more than 0.3-0.5% of the rock volume, i.e. such an amount that may be less than the amount of foreign oil that can enter (enter) Bodosaturated rock from the drilling fluid, under the action of a hydrodynamic pressure differential (between bottomhole and reservoir pressure) or capillary forces (if the rock is hydrophobic). This explains the need to take into account the possibility of contaminating the rock with the washing solution. The aim of the invention is to improve the accuracy of determining the saturation of samples with reservoir oil. This goal is achieved because; that according to the method of analysis of rock samples taken during the drilling of wells, by processing the BREED; using a solvent, extracting oil from it, irradiating with UV light and registering the luminescence of the extract, cut the sample perpendicular to the drilling axis, wet the sample with a solvent, cut the oil by tightly contacting the filter paper with UV light stretching on filter paper compares the luminescence intensity of the central and peripheral parts, according to the ratio of which judge the contamination of the sample with washing solution. Based on the fact that the filtrate of the washing solution, which can be represented by technical water or technical oil, under the action of hydrodynamic or capillary forces, can displace the formation oil or formation water from the rock sample during its drilling paper is interpreted as follows: if the entire print section is not illuminated, the rock sample (core) is not contaminated with mud filtrate and is water-saturated or gas-saturated ohm; if the entire print section is illuminated, then the core is not contaminated with drilling mud filtrate and oil is oil (and the oil is reservoir); if the imprint shines peripherally and does not shine in the center, then the core is saturated or gas-filled and contaminated with mud filtrate, i.e. the oil contained in it is technical oil; if the rock rock shines in the center and does not shine from the periphery, then the core is contaminated with the filter of the drilling fluid volume (in this case, water) and containing oil is reservoir.

P r im a r. In laboratory conditions, A cylindrical samples of sandstone are prepared, which simulate a fully air-saturated and oil-saturated rocks, as well as a water-saturated core, in which from the periphery along a generator, 1 o the visceral water is replaced by oil, I have an oil-saturated core, in which from the periphery along mobile oil replaced by water. Then, filter paper is applied to and pressed onto fresh surfaces of cross sections of solvent-treated samples, which, after obtaining an appropriate print on it, are applied to ultraviolet irradiation.

The filter paper from the cut of the water-rich sample does not shine, but from the oil-saturated light. An imprint from the cut of the water sample, in which oil entered from the periphery, shines only around the periphery, but not in the center; an imprint from a slice of an oil-saturated sample, in which water entered from the periphery, in the center shines brightly, and along the periphery is the same. It does not shine.

Analyzes were carried out on cores taken from sediments of rocks of the Middle Eocene of the southern dome of the Samgori deposit, Georgia (from K 17 and 152 wells). The cores are represented by the interval of 2285-2670 m.

The oil saturation of rock samples from Georgia is estimated by a known method. Pieces of rocks taken from the middle part of core rock samples are dried and crushed. Subsequently, the enclosed hydrocarbons are removed by a solvent, and the droplets of the solutions are applied to filter paper. Standards are prepared beforehand, for which droplets of solutions containing oil in known concentrations are applied to the filter paper. The standards and freshly prepared filter paper are subjected to ultraviolet irradiation and, comparing the intensity of luminescence, they conclude about the approximate content of hydrocarbons in the cores. However, the known method does not allow determining reservoir or foreign hydrocarbons contained in the rock samples and whether they are oil or bitumen.

The results of core studies are given in the table.

710403878

The study of cores of the proposed capillary extracts on the filtering method makes it possible to classify the detection of foam paper obtained from liquid hydrocarbons in them to reservoir, bone extracts from crushed

and some of them - to the oil samples of rocks, gives the opportunity

The use of the proposed method to determine which oil contains a method for analyzing rock samples: stratified or alien,

compared to the method based | and also save the rock sample for

on research in ultraviolet other analyzes.

Claims (1)

METHOD FOR ANALYSIS OF ROCK SAMPLES taken during drilling of wells by treating the rock with a solvent, extracting oil from it, irradiating with UV light and recording the luminescence of the extract, with the aim of increasing the accuracy of determining the saturation of samples reservoir oil, the rock sample is cut perpendicular to the axis, wetted. solvent, a flat section of the sample is drawn, the oil is drawn by tightly contacting the cut with filter paper, the prints of the extract are irradiated with UV light on filter paper, the intensity of the luminescence of the central and peripheral parts is compared, the ratio of which is used to judge the contamination of the sample with a 7-night solution. SU „, 1040387