SU1149000A1 - Method of detecting brine manifestations - Google Patents

Abstract

METHOD OF DETECTION OF DISTRIBUTION, including taking a sample of drilling fluid circulating in the well with formation water, extracting the water part from it and analyzing it, which is similar to the fact that, in order to improve the accuracy of the water extracted from the drilling fluid and, if available, judge brine formation from the formation.

Description

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; p I The invention relates to the drilling of wells and can be used to detect brine formation during the drilling of deep wells in salt deposits. There is a known method for detecting gas oil and water in the bzfea process, including lifting and lowering oil pipes of drilling pipes, measuring the volume of 6ypqBoro mortar displaced from the screw, re-lowering, raising and measuring the volume of the displaced drilling mud, which is equal to the volume of fluid from the formation 1 .. The disadvantages of the method are its laboriousness associated with the necessity of raising and lowering the drill pipe string and the impossibility of establishing the origin of the developing brine. There is also known a method for detecting fluid ingress into a well, which consists in measuring the resistance of a drilling fluid passing through a well, which is approximately constant over time. When saline water enters the well bore, the resistance of the drilling fluid changes noticeably, which is fixed by instruments 2j. The disadvantage of this method is that it is not applicable in the case of drilling out salt deposits, since their penetration is carried out on a petroleum-based solution, which is a good dielectric and on a salt solution, which has, on the contrary, very good conductivity, which is not gives you the opportunity to notice a change in the resistance of the solution when small amounts of reservoir brine enter it. In addition, as in the first method, only the fact of the occurrence of saline water in the well is recorded without establishing its origin. The closest to the invention is a hydrochemical method for monitoring the watering of gas wells and deposits, which consists in taking samples of bottom water, determining their salinity and one or more components of chlorine, calcium, magnesium, sodium and potassium, sulfates, and hydrocarbons characteristic of platinum waters h. 0 A disadvantage of the known method is that in case of drilling salt deposits, information about brine mineralization, chlorine, calcium, magnesium and other proposed components contain it is not possible to judge whether dissolution of salt salts occur in the well of formation brine or brine. fresh technical water contained in drilling mud or injected into the well during the drilling process. The aim of the invention is to improve the detection accuracy of the brine of this operation. The goal is achieved by the method of detecting brine, including taking a sample of drilling fluid circulating in the well with formation water, extracting the water part from it and analyzing it, determine the lithium content in the water collected from the drilling fluid brine from the reservoir. Lithium, due to the high solubility of its compounds, accumulates in reservoir brines during their repeated concentration and does not precipitate. Lithium is practically not contained in salt salts. As a result, in brines of dissolution of reservoir salts of technical fresh water used during drilling and contained in drilling mud, lithium is also absent. In addition, lithium was not detected in the process water itself and water extracts from drilling fluids used in drilling salt formations. Finally, in the process of raising the brine to the surface, lithium does not crystallize from it when the temperature and pressure conditions change, together with an excess of salts in the wellbore. Thus, lithium is a natural indicator of brine saline deposits, which allows the presence to be established. even small amounts of this brine in liquefied mud packs and reliably detect reservoir brine at its earliest stages. The method is carried out as follows. At the wellhead of a drilling well, a sample is taken from the liquefied mud pack, the water part is separated from it, and the lithium content is determined in it, in the presence of which a conclusion is drawn about the presence of formation brine in the well. Example 1. The method is tested when drilling wells, vysprgeyuschih at depths of 4500-5500 m Verkhnegorsky salt deposits in the Kara-Bulak-Achalukskaya area of the Terek-Sunzhenskoy oil and gas region. In well No. 168, the content of industrial water with a salinity of 0.2 g / l in the calc-bitumen mortar (IBR) used in drilling is 7%. During the drilling of reservoir salts at a depth of 4853 m, the water content of the PSI drops to 25%. Spectral analysis of water extracted from the IBR sample taken at the wellhead with salinity of 385 g / l shows that it contains 38 mg / l of lithium. Consequently, in the wellbore by the formation brine. Example 2. In the same area at well No. 170, the content of process water with a salinity of 0.37 g / l in the IBR prepared for drilling is 9-10%. From a sample of drilling at a volume of 0.5 l, IBR samples produce water, the mineralization of which is 302 g / l. As a result of the spectral analysis of the composition of this water, no lithium is detected in the ISP-30 spectrograph. Consequently, in the well there is a brine of dissolution of formation salts of technical fresh water. Example 3. On the same area, the wiring in the salt deposits of well No. 172 is carried out on the CBR, the content of which with 0.2% / l mineral water is 18%. The borehole is open in the well in the range of 4,200–5,700 m (the Nrzhmeil and Upper Jurassic sediments). Before lifting the tool, 6 m of technical baud of the same mineralization was pumped. However, then during the descent of the instrument together with the IBR, IB m of water is displaced with a salinity of 200 g / l. The water content of the IBR remains unchanged. A spectral analysis of the sample taken in a volume of 0.5 liters of water shows that it does not contain lithium and, therefore, in the wellbore there is a brine of dissolution of formation salts with technical water pumped into the well during previous work. The technical economic effect of using the proposed method lies in the fact that it can significantly reduce the time for analysis, reliably detect the presence of brine at its early stage, take timely measures to eliminate the flow, significantly reduce the downtime of wells.

Claims (1)

METHOD FOR DETECTING SALT MANIFESTATION, including sampling of the drilling fluid circulating in the well with produced water, removing the aqueous part from it and analyzing it, which, in order to increase the accuracy of the water injected from the drilling fluid, determines the lithium content and the presence of judging brine occurrence from the reservoir. > 1 1,149,000