RU2365735C2 - Opening method of high-pressure stratums, saturated by strong brines - Google Patents

Abstract

FIELD: civil engineering.

SUBSTANCE: invention elates to deep well construction technology, particularly to opening methods of producing formations. Method includes drilling and fixation of borehole up to top of high-pressure stratum, opening by drilling of high-pressure stratums with usage of measures of anti-fountain blowout. According to invention before lowering of string, fixing borehole up to top of productive stratum, in the range of thief formation, located directly under regional waterproof stratum, by method of frac job it is formed thief zone. After it is implemented fixation of borehole by intermediate casing string, providing communication of formed thief zone through wellhead necking with reserve capacitive fleet and ground-based pumping equipment ensured by sub-lifting of cement grout for 80-100 m up to previous casing shoe. Hereupon it is implemented opening by drilling of target high-pressure stratum. In case of brine-appearance it is implemented withdrawal of natural brine by pumping by ground-based pumping equipment or ensured by itself power of producing high-pressure formation by hole annulus into beforehand formed thief zone.

EFFECT: it provides ability of controlled opening of high-pressure stratums with anomalous output and pressure, saturated by strong brines, with higher degree of protection against spontaneous discharges and formation fluid flowing.

1 ex, 1 dwg

Description

The invention relates to technology for the construction of deep wells, in particular to methods for opening productive formations.

Development of fluid deposits in high-pressure formations of sedimentary cover, characterized by abnormally high reservoir pressures (AVPD) and large overflow rates [Kucheruk EV, Lyustikh T.E. Prediction and assessment of abnormal reservoir pressures based on geophysical research. VINITI, a series of "Geological and geochemical methods of prospecting for minerals. Methods of exploration and evaluation of deposits. Exploration and production geophysics. " T.7, M., 1986. Yasashin A.M. Opening of formations in which reservoir pressure is greater than hydrostatic. // Construction of oil and gas wells on land and at sea. - 1999, No. 10. - P.22-25., Bylevsky G.A., Kucheruk E.V., Karpushin V.Z. Quantitative assessment of AVPD during oil and gas exploration. - M., 1987 - 47 pp.], Has a feature, the essence of which is the increased danger of drilling operations in the process of opening them. Before drilling in the bowels of the earth there is a balance between geostatic and reservoir pressure. Opening a high-pressure reservoir violates this balance and can be accompanied by accidental emissions and gushing of underground fluid, causing enormous damage to the environment. Such cases have occurred both in the search and in the development of oil and gas fields.

A catastrophic oil spill is known when a well opens the roof of the AVPD zone on the salt dome of Spindlop in Texas, USA [Kucheruk EV, Lyustikh T.E. Prediction and assessment of abnormal reservoir pressures based on geophysical research. VINITI, a series of "Geological and geochemical methods of prospecting for minerals. Methods of exploration and evaluation of deposits. Exploration and production geophysics. " T.7, M., 1986]. At the same time, 108 thousand tons of oil was thrown out of the well from the well, forming a 40 ha lake. Then a fire broke out, turning the whole district into a lifeless desert. Another example of the same catastrophe can be the consequences of the incorrect opening of fractured limestones of the Kum Formation, which are located under powerful salt deposits, in well No. 5 at the Elbrus oil field, Iran [Kucheruk EV, Lyustikh T.E.

Prediction and assessment of abnormal reservoir pressures based on geophysical research. VINIGI, a series of "Geological and geochemical methods of prospecting for minerals. Methods of exploration and evaluation of deposits. Exploration and production geophysics. " T.7, M., 1986. The reservoir in this well was at a depth of 2700 m, had a pressure of 60 MPa and was opened only 5 cm, after which the well was gushing with oil with a flow rate of 8.1 thousand tons / day for 82 days, spilling 664 thousand tons of oil on the earth's surface. This oil has poisoned flora and fauna for many decades and polluted not only surface, but also groundwater.

Thus, during the construction of deep wells, the opening of high-pressure formations can cause accidents leading to environmental pollution and many other undesirable consequences.

The experience of exploration of subsalt oil and gas deposits in the Irkutsk region shows that drilling prospecting and exploration wells in powerful salt strata - tires over oil and gas deposits, is complicated and even becomes impossible due to the intensive influx of strong brines from halogen-carbonate hydrogeological formations within the saline sequence Lower Cambrian age. High-yield tributaries of strong brines were obtained in almost all exploration areas in the south of the Irkutsk region, m ³ / day: Kovyktinskaya up to 5000; Omoloyskaya up to 3600; Balagankinskaya until 1800; Balykhtinskaya to 840, Znamenskaya to 7000, Rudovskaya to 3600, Karakhunskaya to 2400, etc. [Vakhromeev A.G., Khokhlov G.A. Prospects for the forecast of zones of occurrence in the Verkholensky (Zhigalovsky) gas-bearing region of the Irkutsk region. On Sat Features of the technology of drilling and pumping wells in Vost. Siberia and Yakutia. SNIIGGiMS, VostSibNIIIGGiMS, Novosibirsk, Irkutsk, 1988, p.140-142]. The coefficient of reservoir pressure anomalies is 2.05-2.65 [Pineker E.V. Brines of the Angara-Lena artesian basin. M .: Nauka, 1966 .-- 332 p. Antsiferov A.S. Hydrogeology of the oldest oil and gas bearing strata of the Siberian platform. M .: Nedra, 1989].

The above examples indicate that the discovery of high-pressure formations with a deep well is a complex technological operation and represents a serious danger due to the scale of the consequences associated with this. This is primarily due to the fact that insignificant errors in the choice of equipment, the amount of repression on the formation and technological drilling modes can lead to production complications up to well liquidation and even an environmental disaster.

A known method of ensuring the safety of drilling operations during the opening of high-pressure formations, consisting in the use for the prevention of fountain discharge of special weighted drilling fluids [Kalinin A.G., Levitsky A.Z. Technology for drilling exploratory wells for liquid and gaseous minerals. - M .: Nedra, 1988 .-- from 98-99. Bulatov A.I., Penkov A.I., Proselkov Yu.M. Guide to flushing wells. - M .: Nedra, 1984. - 317 p.]. For their preparation, expensive and scarce reagents are required: bromides and nitrates of polyvalent metals, biopolysaccharides, hydroxyethylated derivatives of cellulose and polyhydric alcohols, barite, celestine, hematite, galena, etc.

The disadvantages of this method are the high cost of the drilling fluid, great difficulties in its preparation and maintenance of the necessary technological parameters and uninsured work from spontaneous emissions and spill of formation fluid on the earth's surface in cases where the density of the drilling fluid does not provide an excess of hydrostatic pressure over the reservoir.

The objective of the invention is to develop a technical solution that allows for controlled opening of high-pressure formations with abnormal flow rates and pressures saturated with strong brines, with a higher degree of protection against spontaneous emissions and flowing of the formation fluid than in the case of the known method.

The essence of the proposed technical solution consists in the fact that before lowering the column, which secures the wellbore to the roof of the high-pressure formation, in the interval of the absorbing formation located directly below the regional water-resistant stratum, an absorption zone is formed by the method of hydraulic fracturing, after which the borehole is fastened with an intermediate casing and provide the connection of the formed absorption zone through the wellhead piping with a reserve capacitive fleet and ground-based pumping equipment due to insufficient the cement slurry is 80-100 m from the shoe of the previous casing string, then the target high-pressure formation is opened by drilling and, in the case of intense brine development, the natural brine is removed by injection by ground pumping equipment or due to the self-energy of the productive high-pressure formation through the annular space into the preformed absorption zone.

The following is a structural diagram (see drawing) and an example implementation of the proposed technical solution.

Example. Drilling a well (1) to the roof (2) of a high-pressure reservoir (3) is carried out in accordance with the technology developed for this field. Then, in the interval of the absorbing layer, located directly below the regional water-resistant column (4), an absorption zone (5) is formed by hydraulic fracturing, the barrel is fixed with a casing (6), however, the cement slurry is pumped so that the formed absorption zone is open and can communicate through the wellhead piping with ground-based pumping equipment, i.e. leave annular space uncemented from the absorption zone to the earth's surface (7). Then, a high-pressure formation (3) is opened by drilling, its products are transported through the well, and in the case of an abnormally high flow rate, they are passed under pressure through the wellhead piping and then through the assembly (8), which allows controlling the flow rate and pressure of the brine coming from the well directly through the annular space ( 7) into a preformed absorption zone (5).

A backup, backup option in this scheme (example) provides for the binding of the well with ground reserve receiving tanks (9) and ground pumping equipment (10) for forced injection into the formed absorption zone. A check valve (11) is provided on the injection line, and flow rate control is controlled by a flow meter (12).

An advantage of the proposed method for opening a high-pressure formation saturated with strong brine is that the implementation of the proposed technical solution avoids emissions, gushing and spilling of the formation fluid due to its injection by ground pumping equipment into a preformed absorption zone.

The method was successfully tested in practice during the construction of well 3A of the Znamenskoye field of industrial brines, Irkutsk region.

Claims (1)

A method of opening high-pressure formations saturated with strong brines, including drilling and securing a wellbore to the roof of a high-pressure formation, opening drilling high-pressure formations using anti-spillover measures, characterized in that before the descent of the column securing the wellbore to the top of the productive horizon, in the interval of the absorbing formation located directly below the regional water-resistant stratum, an absorption zone is formed by the method of hydraulic fracturing, after which borehole borehole with an intermediate casing string, providing a connection between the formed absorption zone through the wellhead piping and a reserve tank fleet and ground-based pumping equipment due to under-raising of cement mortar 80-100 m to the shoe of the previous casing string, then the target high-pressure formation is opened by drilling and, in case of intense brine occurrence, natural brine is diverted by injection by ground pumping equipment or due to the productive high-pressure self-energy th layer on the annulus in a preformed absorption zone.