RU2199007C2 - Method of determining wells technical conditions - Google Patents

Abstract

FIELD: well logging; applicable in determination of wells technical conditions and ways of compounds spreading by method of radioactive well logging with use of traced technique. SUBSTANCE: method includes plotting of background curve of natural radioactive radiation intensity before introduction into composition of contrast additives which are injected beyond casing string; waiting for formation of screen impermeable for fluid and gas; preparation of well for logging; plotting of repeated curve of distribution of radioactive radiation. Technical conditions of wells and ways of spreading of plugging and repair compositions are determined by comparison of repeated curve of distribution of radioactive radiation and background curve of intensity of natural radioactive radiation. Contrast additive is activated by neutron flux directly in annular space with the help of instruments of pulse radioactive logging. Plotting of repeated course of distribution of radioactive radiation is carried out after completion of creation of impermeable screen and time delay sufficient for drop of gamma-ray activity of manganese and chlorine isotopes. EFFECT: higher efficiency of research with reduced biological hazard and preservation of ecological cleanness. 1 dwg, 1 tbl

Description

 The invention relates to the field of geophysical research in determining the technical condition of wells by radioactive logging using labeled substances (assessing the quality of primary cementing, the degree and nature of filling the annular space of wells with cementing material, the distribution paths of repair compositions behind casing strings during secondary or remedial cementing, locating casing leakage, for example, when carrying out isolation works in, the elimination of cross-flows of fluids, removing gas migration annulus in wells, etc.).

 Known methods for determining the state of cement stone in the annulus of wells by acoustic and radioactive logging (see, for example, "Acoustic and radiometric methods for determining the quality of cementing of oil and gas wells", M .: Nedra, 1971) [1].

 However, they are most informative only during primary cementing. During repeated (correctional) cementing, incomparably smaller volumes of repair compositions are injected, which leads to insignificant changes in the characteristics of the medium in the annulus of the wells for acoustic and radioactive methods and does not allow to determine the path of their propagation behind the casing strings. Therefore, in practice, there are often cases when practically blindly numerous and unsuccessful injections of repair compounds are performed that do not lead to sealing of the annular space of the wells.

 In foreign and domestic practice, radioactive logging methods are also known using labeled substances having various abnormal nuclear-physical properties relative to the environment and the presence of which is reliably distinguished by radioactive logging methods. (Both radioactive isotopes - the method of radioactive isotopes, and isotopes with an anomalously high cross section for thermal neutron capture - the neutron method of labeled substance can be used as labeled substances).

 The labeled substance can be introduced into the well in the form of an aqueous solution of isotope salts, suspension, on a solid carrier (sand, plastic granules, ion-exchange resins) by forcing solutions and mixtures prepared on the surface in special containers using pumps of cementing aggregates; introducing water injected into the well into the stream; the use of deep injectors, in the form of a remote piston system or a powder charge; electrolytic dissolution (spark spraying); with the help of bullet punchers firing with special bullets stuffed with labeled substance, etc. [2].

 In Russia, the radon indicator method (IMR) proposed by the VolgogradNIPIneft institute [3], which consists in recording the background curve of the distribution of natural radioactive intensity, is known in Russia for determining the height of the grouting materials behind the casing string, the technical condition and the direction of fluid flow in the annulus of the wells [3]. rock radiation in the well (as a function of depth); preparing a radon indicator on the earth's surface; enrichment of non-volatile liquids (water, oil, drilling mud and cement, etc.); pumping radon-rich fluids into the well; recording the distribution curve of the radiation intensity in the well (as a function of depth) after injection of radon-enriched fluids; analysis of the distribution curves of the intensity of radioactive radiation in the well and the allocation of anomalous zones, which are used to judge the determined parameters.

 It should be noted that, despite the relatively small adsorption of radon on the clay cake, drilling equipment, its rapid removal from the body (within 1-6 hours), this method is environmentally dirty and harmful to biological organisms.

 Also known is the “Radioactive Logging Technique for Short-lived Radionuclides” developed at Tvergeofizika Research and Production Center JSC (prototype), the essence of which is to prepare a solution labeled with short-lived radionuclides of sodium-24, pump it into a well, followed by indication of radioactive anomalies with standard gamma channel equipment logging [4].

Sodium-24 radionuclides are prepared under stationary conditions or upon arrival at the well using a special TAU-2 activation device using a source with a neutron yield of at least 2-5 • 10 s ^-1 (Pu-Be or Cf-252, - plutonium - beryllium or California, respectively).

The choice of sodium-24 is due to the short half-life (15 h), high gamma-ray output energy (1.37 and 2.75 MeV) when using widely available activated sodium compounds Na ₂ CO ₃ and NaHCO ₃ , and the absence of adsorption upon contact with the solid phase in the well, etc.

 Common disadvantages of these radioactive methods are the uncertainty of determining the height of the repair of cement slurries, because labeled substances are usually washed out of cement mortars and rise above the level of cement rise; their environmental hazard and biological hazard even with strict observance of radiation safety rules; the use of "dirty" technologies for the preparation and injection of enriched liquids; time consuming and laborious, which requires high skill of the performers.

 Therefore, they have not found wide application in the world practice of conducting geophysical exploration of wells (GIS), and until now, radioactive logging using labeled substances is a special type of geophysical exploration and its use is justified only in cases where the problem cannot be solved by other methods [2 ].

 The objective of the present invention is to increase the efficiency of the method of radioactive logging using labeled substances in determining the technical condition of wells while reducing biological hazard and maintaining environmental cleanliness.

 To solve the problem in a method for determining the technical condition of wells and the distribution paths of grouting or repairing compositions behind the casing string, which includes taking the background curve of the distribution of the intensity of natural radioactive radiation in the well, introducing contrasting additives into grouting or repairing compositions, injecting these compositions and waiting for time required to complete the physicochemical processes of converting them behind the casing into a liquid and gas impermeable screen ( due to solidification, polymerization or swelling), preparing the well for geophysical studies, taking the distribution curve of the radiation intensity in the well, identifying anomalous zones and determining the propagation paths of the injected compositions behind the casing by comparing the background distribution curve of the intensity of natural radioactive radiation and the intensity distribution curve radiation in the well, the activation of the contrast agent is carried out by a neutron flux with by means of pulsed radioactive logging tools directly in the annulus of the wells, and the removal of the distribution curve of the intensity of radioactive radiation in the well is carried out after the completion of the physicochemical processes of converting the indicated compositions with a contrasting agent into an impermeable screen and holding the time sufficient to decrease the gamma activity of manganese and chlorine isotopes .

The essence of the proposed method consists in taking background curves before pumping mixtures for the casing string, additionally introducing crushed labeled substances or contrast additives (for example, NaHCO ₃ , Na ₂ CO ₃ , etc.), pumping them over the casing string, waiting for hardening (polymerization) of grouting compositions, preparation of a well for geophysical research - well logging (flushing, patterning, etc.), activation of contrast additives directly in the annulus of a well by a neutron flux using impulse devices meat radioactive logging, repetition of the GIS allocation anomalous zones and evaluation of technical status by comparing the background wells and repeated GIS curves.

 It should be noted that the implementation of the proposed method does not cause difficulties, since neutron pulsed tubes with a high neutron yield energy, for example, BHT1 - 26, are currently used in radioactive pulse logging equipment (see table).

 Improving the efficiency of the radioactive logging method using labeled substances is achieved by improving the accuracy of determining the height of the injected mixtures (grouting and repairing compositions) behind the casing by eliminating the effect of leaching of labeled substances (from hardened injected mixtures); elimination of environmentally dirty and biologically harmful technologies for the preparation and injection of enriched compounds by activating labeled substances not on the earth’s surface, but directly in the annulus of the wells through the production casing after pumping and hardening the repair compounds, eliminating the need to use radioactive stationary radiation sources that are dangerous for biological objects and requiring the creation of not only the appropriate infrastructure, but also special conditions for storage and use; eliminating the need for special activation devices and vehicles requiring periodic maintenance, examination and certification; elimination of biological hazard factors for work performers and environmental hazards both in the area of radioactive logging and along the route to the well; reduce time and labor costs due to the simplification of the preparation of grouting mixtures with labeled substances to their simple physical mixing; eliminating the need for decontamination of equipment, the use of special reagents and the disposal of decontamination products.

 In addition, research on the proposed method does not require special training and high skill of the executors of the work, an agreed plan with the territorial bodies of the Gosgortekhnadzor and can be performed by any complex geophysical party.

A limitation to the application of the proposed method for determining the technical condition of wells using labeled substances is the presence of manganese in the casing metal, which acquires induced radioactivity upon irradiation with a neutron flux, and its concentration in pipes made of various steel grades ranges from 0.5 - 1, 6% (for steel grades 45 and 20KhG2b, respectively), which creates an additional background that makes it difficult to isolate radioactive anomalies due to the presence of labeled x substances. Therefore, the choice of labeled substances should be carried out in such a way that their half-life is significantly different from the half-life of the Mn ⁵⁶ isotope Mn ⁵⁶ , which is 2.6 hours.

 We propose the use of sodium-24 isotope with a half-life of 15 hours as a labeled substance.

At the same time, 15 hours after irradiation, the intensity of gamma radiation of sodium isotopes decreases only by half, and manganese Mp ⁵⁶ - by more than 32 times, i.e. becomes negligible.

 Another limitation to the application of the proposed method is the presence of chlorine in the annulus in formation water with a half-life of 37.5 minutes, which can also lead to distortion of radioactive anomalies caused by the sodium isotope -24, because with a short irradiation time, the activity of the -24 sodium isotope is significantly less than the activity of the chlorine isotope.

 Thus, the first study after irradiation should be carried out after the decrease in the induced activity of the chlorine isotope, i.e. after 3-7 half-lives of chlorine (1.87-4.37 h), at which its effect becomes insignificant.

 Tests of the proposed method for determining the technical condition of wells in terms of determining the height of the rise and the distribution paths of repair compounds behind the casing were carried out at well 74 of the Krasnodar SPG and showed its high efficiency. The injection was carried out through special technological holes in the casing, made in the interval 958-962 m

Curves 1 and 2 in the drawing show the gamma activity distributions of the repair composition with NaHCO ₃ additives (before and after activation, respectively), from which it follows that the repair composition is mainly concentrated in the range of 964-1020 m, i.e. below the technological hole.

Sources of information
1. Yu.A. Gulin, D.A. Bershtein. Acoustic and radiometric methods for determining the quality of cementing of oil and gas wells.- M .: Nedra, 1971, p. 6-21, 63-76.

 2. Technical instructions for conducting geophysical surveys in wells. Approved by the Ministry of Geology of the USSR on May 4, 84, the Ministry of Petroleum on May 8, 84, Moscow: Nedra, 1985, pp. 58-59.

3. Prospect of Production Association Nizhnevolzhskneft VolgogradNIPIneft. The radon indicator method for determining the technical condition of wells, Volgograd, 1977;
4. Transported activation unit TAU-2. Information and Commercial Bulletin AIS "Karotazhnik", Association of scientific, technical and business cooperation for research and work in wells, Tver, 1994, no. 8, p.115 - prototype.

Claims (1)

 A method for determining the technical condition of wells and distribution paths of grouting or repairing compositions behind the casing string, including taking a background curve of the distribution of the intensity of natural radioactive radiation in the well, introducing contrasting additives into grouting or repairing compositions, injecting said compositions and waiting for the time required to finish the physical -chemical processes of converting them behind the casing into a liquid and gas impermeable screen (due to solidification, polymerization and or swelling), preparing the well for geophysical studies, taking the distribution curve of the intensity of radioactive radiation in the well, identifying anomalous zones and determining the propagation paths of the injected compositions behind the casing by comparing the background distribution curve of the intensity of natural radioactive radiation and the distribution curve of the radiation intensity in the well characterized in that the activation of the contrast agent is carried out by a neutron flux using instruments pulsed radioactive logging directly in the annulus of the wells, and the removal of the distribution curve of the intensity of radioactive radiation in the well is carried out after the completion of the physicochemical processes of converting the indicated compositions with a contrasting agent into an impermeable screen and holding the time sufficient to decrease the gamma activity of manganese and chlorine isotopes.

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