RU2499137C2 - Method of determination of low-permeability beds in well being drilled - Google Patents

Abstract

FIELD: oil-and-gas industry.

SUBSTANCE: background gamma-ray logging is effected to inject tagged drilling solution and to reciprocate drilling equipment. After reciprocation of drilling equipment, 0.5 m³ of drilling solution are injected with radon concentration making at least 0.175 Gbc per 100 m of well interval to penetrate it additionally. Research interval is flushed in two cycles of circulation to make gamma-ray logging thereafter. Obtained result is compared with background measurement.

EFFECT: determination of low-permeability beds.

Description

The invention relates to geophysical methods for researching wells: logging-activation-logging, in particular to the determination of low-permeability formations in a well being drilled.

The determination of low-permeability formations is an important task of geophysical research in the study of deep-seated fractured reservoirs.

The lack of sensitivity of traditional methods of well logging (GIS) to reservoirs of low porosity and permeability (less than 0.1 Md) makes this task practically unsolvable.

The high sensitivity of the indicator method for radon (IMR) allows us to solve this problem successfully. However, for a clearly obtained result, a specially constructed technology is needed.

By the permeability of a porous medium with respect to liquids and gases is meant the ability of this medium to pass fluids through itself.

Permeability is a property of a porous medium and depends on the geometry of the pore space, as well as the physicochemical properties of moving fluids (viscosity, gradient of the initial fluid shift in a porous medium).

A known method for assessing the nature of the saturation of the formation during drilling of a well using radon, described in the book of V.P. Filippova “Application of the radon indicator method for the study of oil-saturated porous media”. - M.: VNIIOENG OJSC, 2003 .-- 272 p.

The method includes the injection into the reservoir of indicator fluid (IL) with radon at the end of its penetration. In this case, the permeability of the formation is significantly reduced due to mudding of the bottomhole zone. The main condition for determining the nature of the oil saturation of the formation is the forcing into the studied formation of indicator fluid (IL) in the amount of at least two volumes of pore space, which is practically impossible.

Closest to the proposed is the "Method for the determination of formations with abnormally high permeability" patent No. 2351756, authors Kilyakov V.N., Belousov G.A., Kilyakov A.V.

The result of the invention is the determination of formations with abnormally high permeability due to the different penetration ability of drilling and grouting solutions into the permeable formations of the studied interval. To do this, carry out gamma-ray logging using radioactive substances. In order to determine formations with an abnormally high permeability, a gaseous chemically inert isotope is used, studies are carried out in an open hole, and then the same isotope is injected directly into the cement slurry, in the interval of the previous study. After that, gamma-ray logging is carried out. The determination of formations with an abnormally high permeability is carried out according to the results of comparing a specific control gamma-ray log with the background carried out after the formation of the zone of penetration of the indicator into the reservoir layers and washing the barrel from the indicator fluid. Then, gamma-ray logging is carried out immediately after cementing the well and formation of cement stone, after which the permeability of the first gamma-ray log is compared with the permeability obtained by gamma-ray logging after cementing, and formations with an abnormally high permeability are isolated.

The disadvantage of this method is the fact that mudding makes it difficult for indicator fluid (IL) to penetrate into low permeable (fracture zones) and does not allow obtaining well-defined results on zones of fractured reservoirs when interpreting well logs.

The method does not make it possible to determine low-permeable formations.

The technical result to which the invention is directed is to determine low-permeable formations through the use of technology that is based on the combined use of well-known methods of hydrodynamic effects on the formation - pacing of drilling equipment (tubing) with additional drilling fluid forcing.

When pacing with drilling equipment (tubing), the mud layer is destroyed, and the penetration of the indicator into the formation is ensured by additional punching.

In order to determine low permeability formations, a gaseous chemically inert radon isotope is used.

To achieve the named technical result in the proposed method, including conducting gamma-ray logging, injection into the open hole behind a string of drill pipes into the studied interval of a portion of a drilling fluid “labeled” with a gaseous chemically inert isotope, performing operations to form a penetration zone of the “labeled” portion of the filtrate drilling fluid, the displacement of the “labeled” portion of the drilling fluid from the study interval, drilling equipment (tubing) is paced, 0.5 are pumped into the study interval m ^{3 of} drilling fluid with a radon concentration of at least 0.175 GBq per 100 m of the interval, additionally push it through, flush the study interval with two circulation cycles, then carry out gamma-ray logging, the results are compared with the background measurement, the permeability of the selected formations is evaluated and low-permeability formations are isolated .

The proposed method provides the necessary information about the presence of reservoir layers with abnormally low permeability, which can be used to allocate effective thicknesses for calculating reserves.

The method is based on gamma-ray logging using radioisotopes in the process of drilling a well. Moreover, to determine formations with an abnormally low permeability in a well being drilled, a portion of the drilling fluid labeled with an isotope is placed in the studied interval.

In the drilling process, after conducting the background GC, the isotope is introduced into the calculated volume of the drilling fluid to study the long (100-300 m) open-hole interval. Through the drill pipe string, this volume of the labeled portion of the drilling fluid is pumped into the studied interval, the formation of the zone of penetration of the indicator deep into the formation is carried out, followed by washing of the well.

After pacing the drilling equipment (tubing), 0.5 m ^{3 of} drilling fluid with a radon concentration of at least 0.175 GBq per 100 m of the interval is pumped into the study interval, it is additionally pressed through, and the study interval is flushed with two circulation cycles.

Spend gamma-ray logging.

The results obtained are compared with the background measurement, the permeability of the selected formations is evaluated, and low-permeable formations are distinguished.

The application of this method will clarify the effective thickness (estimated parameter) of reservoirs and identify zones of development of fracturing, which is important for complexly constructed carbonate sections (reservoirs).

This method can be used in the field of prospecting, exploratory drilling in the GIS complex in order to identify zones of fractured reservoirs and the shielding properties of tire rocks.

Claims (1)

A method for determining low-permeability formations in a well being drilled, including background gamma-ray logging, injection into the open hole for a drill pipe string into the test interval of a portion of a drilling fluid “labeled” with a gaseous chemically inert isotope, performing operations to form a penetration zone of the “labeled” portion of the drilling portion of the filtrate solution, the displacement from the study interval of the "labeled" portion of the drilling fluid, characterized in that after walking the drilling equipment (tubing) in the study interval zak they pump 0.5 m ^{3 of} drilling fluid with a radon concentration of at least 0.175 GBq per 100 m of the interval, additionally push it through, flush the study interval with two cycles of circulation, then carry out gamma-ray logging, the result is compared with the background, the permeability of the selected formations is evaluated and emit low permeability layers.