RU2036216C1 - Method of drilling fluid treatment containing reagents subjected for microbial destruction - Google Patents

Abstract

FIELD: oil and gas mining industry. SUBSTANCE: thiazone-3,5-dimethyltetrahydro-1,3,5-thiadiazinethione is added to the drilling fluid as bactericide addition at concentration 0.1% (not less) of drilling fluid mass. Thiazone addition to the drilling liquid provides enhancement of bactericidal properties and simultaneous filtration decrease of drilling liquid. EFFECT: improved properties of drilling solution. 4 tbl

Description

 The invention relates to the oil and gas industry, namely to the chemical treatment of polymer-based water-based drilling fluids.

 It is known that flushing fluids used in drilling wells undergo microbial destruction [1] Microorganisms are capable of destroying oil and lubricants, water-soluble cellulose ethers (CMC OEC, SEC, etc.), starch and other polysaccharides that make up the drilling fluid. Sulphate-reducing bacteria (CRB) also develop in the drilling fluid, which form hydrogen sulfide during the life process. The development of these groups of microorganisms leads to a change in the technological parameters of the drilling fluid, increased consumption of polymer reagents and corrosion of metal equipment.

 To prevent microbial destruction of the reagents that are part of the washing fluids, there are various methods.

A known method of processing drilling fluids with dialkylamines used as inhibitors of microbiological degradation of CMC [2]
However, the application of these parameters is unpromising, since they have low antimicrobial activity and are volatile, have a pungent odor, and therefore are not very technologically advanced.

Closest to the invention, the effect achieved is a method of treating a drilling fluid with N-oxide-4 nitropyridine, used as a bactericidal additive [3]
The disadvantages of this method are the relatively low antimicrobial activity and a narrow spectrum of antimicrobial action, as well as the lack of an industrial method of its production.

 The technical problem that the invention solves is to increase the bactericidal properties of the drilling fluid and at the same time reduce its filtration.

 For this, in the method for treating a water-based drilling fluid containing reagents susceptible to microbial destruction by introducing a bactericidal additive therein, according to the invention, thiazone (3,5-dimethyltetrahydro-1,3,5-thiadiazintion) is used as a bactericidal additive, which at the same time reduces mud filtration.

 Thiazone (3,5-dimethyltetrahydro-1,3,5-thiadiazintion) is produced industrially (TU-113-04-214-86) and is available in powder form, which reduces the cost of its transportation. Its use in agriculture of fungicide and nematicide is known. In addition, thiazone has bactericidal properties. However, thiazone was not used to treat flushing fluids and its property to reduce mud filtration is unknown. Thiazone reduces the filtration of drilling fluids and simultaneously inhibits the development of microorganisms. Thus, thiazone acts as a bactericide and reduces mud filtration. Reduced filtration reduces polymer consumption and helps stabilize the colloidal mud system.

 Testing the antimicrobial activity of the drug and measuring technological parameters was carried out using flushing liquids obtained from drilling enterprises of the Kubangazprom association. The composition of the washing liquids included: bentonite, CMC, carbon-alkaline reagent and oil. Bactericides in the amount of 1, 3, 5 g (0.1, 0.3, 0.5%) were added to 1 L of the drilling fluid and mixed on an LM-1 laboratory stirrer for one hour. Microorganisms were quantified by sowing the studied flushing fluids on MPA, Postgate B medium (for CRP accounting), mineral medium for detecting oil-oxidizing microorganisms, and CMC medium for detecting cellulose-degrading microorganisms after 24 h and 4-week incubation of drilling fluids with bactericide. For comparison, similar experiments with N-oxide-nitropyridine, taken as a prototype. As a control, drilling fluid without bactericidal additives was used. Measurement of technological parameters of drilling fluids was carried out by conventional methods. The filtration rate was measured on a VM-6 device, static shear stress (SSS) on a SNA-2 device, and conditional viscosity on a SPV-5 viscometer.

 When treating the wash fluid with a bactericide, both a decrease in the total number of microorganisms in the drilling fluid and the effect of the bactericide on certain physiological groups of microorganisms: sulfate-reducing bacteria, cellulose-destroying and oil-oxidizing microorganisms were taken into account. The analysis of these physiological groups of microorganisms was carried out because they have the greatest damaging effect on the chemicals included in the drilling fluid. Oil-oxidizing microorganisms and destroy oil and lubricants, cellulose-destroying ones cause degradation of polymers, sulfate-reducing bacteria secrete hydrogen sulfide. All this leads to a violation of the technological parameters of the drilling fluid and causes corrosion of technological equipment.

 In the table. Figures 1 and 2 show the characteristics of a drilling fluid (BR) treated with thiazone, respectively, after 24 hours and 30 days.

 The addition of thiazone to the drilling fluid in a concentration of 0.1-0.5% ensures the inhibition of the activity of almost all physiological groups of microorganisms (M / O) and a decrease in the filtration rate. After thiazone treatment, drilling fluid seeding decreases 10-100 times (depending on the concentration of the bactericide) after 24 hours and 1-100 thousand times after 30 days. The inhibition of microflora of the drilling fluid by N-oxide-4 with nitropyridine was less pronounced: the number of microorganisms in the solution decreased by 10-100 times.

 The results of the effect of bactericides on various groups of microorganisms are presented in table. 3 and 4.

From the data presented in table. 3 and 4, it is seen that the growth of CRP is completely suppressed at a thiazone concentration of 0.1%, in contrast to N-oxide-4 nitropyridine, which acts bacteriostatically. After 30 days, the amount of CRP in the samples of the drilling fluid with N-oxide-4 nitropyridine increases from 100 to 700 microbial cells in 1 ml of the solution, while CRP development was not observed in the samples containing thiazone. Similar results were obtained in the study of oil-oxidizing microorganisms. To a lesser extent, thiazone inhibits cellulose-decomposing gram-positive spore bacteria. However, in this case, its activity is higher than that of N-oxide-4 nitropyridine. Treatment with thiazone reduces the number of cellulose-degrading microorganisms by 10-100 times, and N-oxide-4 with nitropyridine only by 10 times. The addition of thiazone in a concentration of less than 0.1% does not give a positive effect, the introduction of more than 0.5% of the drug in the drilling fluid is not economically feasible. The introduction of thiazone into the drilling fluid led to a decrease in filtration at all tested concentrations. Depending on the concentration of the preparation and the incubation period, the filtration of the drilling fluid decreased from 7 to 4.5 cm ³ and from 12 to 4.2 cm ³ . Adding N-oxide-4 nitropyridine to the drilling fluid at the same concentrations had a lower bactericidal effect and did not lead to a decrease in the filtration rate. In the control sample of the drilling fluid that did not contain bactericidal additives, there was an increase in the number of microorganisms from 5 × 10 ⁶ to 7.6 × 10 ⁷ in 1 g of drilling fluid and an increase in the filtration rate from 7 to 12 cm ³ .

 Thus, the use of the proposed drug thiazone is appropriate and economically feasible.

Claims (1)

 METHOD FOR PROCESSING A DRILLING MIXTURE CONTAINING REAGENTS SUBJECT TO MICROBIAL DESTRUCTION by introducing a bactericidal additive into it, characterized in that thiazone-3,5-dimethyltetrahydro-1,3,5-thiadiazintion is used in the amount of not less than 0.1 % by weight of the drilling fluid.

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