RU2630460C2 - Combined stabiliser based on tall oil pitch for treatment of drill fluids and method of its production - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: combined stabiliser for the treatment of fresh and slightly mineralized drill fluids in the first version contains, wt %: diesel fuel or oil with a density of 0.78-0.92 g/cm³ 20; carboxymethyl cellulose, or hydrolyzed polyacrylonitrile, or starch 2-2.5; tall oil pitch 2-5; water is the rest. The combined stabiliser for the treatment of fresh and slightly mineralized drill fluids in the second version contains, wt %: diesel fuel or oil with a density of 0.78-0.92 g/cm³ 25-50; tall oil pitch 3-5; aluminium sulfate 3-5; water is the rest. The combined stabiliser for the treatment of fresh and slightly mineralized drill fluids in the third version contains, wt %: diesel fuel or oil with a density of 0.78-0.92 g/cm³ 25-35; carboxymethyl cellulose, or hydrolyzed polyacrylonitrile, or starch 2.5-4; tall oil pitch 2.5-3.5; aluminium sulfate 3-4; water is the rest.

EFFECT: improvement of rheological and filtration properties of drill fluids and reduction of filtration by 1,5-3 times while maintaining or increasing the values of static shear stress and apparent viscosity of fresh and slightly mineralized fluids, possibility of drilling in a hard terrigenous-carbonate section where it is difficult to retain the structure of the clay solution.

6 cl

Description

The invention relates to the drilling of oil and gas wells, in particular to compositions of low-density hydrocarbon-based drilling fluid stabilizing agent reagents with improved values of rheological and filtration properties, and can be used when drilling in a hard terrigenous-carbonate section, where it is difficult to maintain the structure of the mud with conventional chemical reagents.

State of the art

It is known that when drilling oil and gas wells in a rotary manner, a fluid stream circulates in the well, which, in addition to the function of removing sludge, performs other important functions aimed at efficient, economical and safe execution and completion of the drilling process (1. Dmitriev A.Yu. Fundamentals of well drilling technology Textbook. - Tomsk: ed. Tomsk Polytechnic University. 2008. - 216 p.). For this reason, the composition of drilling fluids is very important.

Known drilling fluid (2. Usynin A.F., Tour V.D., Telitsina A.I. Drilling fluid. A.S. USSR No. 1204625, C09K 7/02, 1983), which contains caustic soda and water, in as a clay powder and an inhibitory additive, in order to increase the salt resistance and fixing properties of the solution, it contains alumina powder, and as a stabilizing reagent it contains tall pitch, liquid distillery concentrate (BCF) and diesel fuel (DT) in the following ratio of ingredients (wt.%) :

alumina powder 20.0-21.0 caustic soda 0.5-0.7 tall pitch 3.4-4.5 liquid distillery concentrate 10.2-13.5 diesel fuel 6.8-9.0 water rest

Drilling fluid is prepared as follows: first, a combined reagent is prepared based on tall oil pitch, diesel fuel and distillery liquid concentrate (KRTB). To do this, take 270 g of tall pitch (1 part by weight), 540 g of diesel fuel (2 parts by weight) and 840 g of BCF (3 parts by weight). Tall oil pitch is dissolved in diesel fuel for 30 minutes and placed in a separate container. Then, liquid is added to the distillery concentrates with gentle stirring and water is added over 30 minutes, so that the viscosity of the aqueous solution is 30 s. With vigorous stirring, a solution of tall pitch in diesel fuel is gradually added to the aqueous BCG solution. As the reagent thickens, it is diluted with water, thereby providing a certain dispersion mode while maintaining a viscosity of 60 s. After 60 minutes of mixing, the thickening process is stabilized and the resulting mixture is introduced into a suspension of 210 g of alumina powder, mixed in 160 g of water. The resulting drilling fluid is economical, due to its resistance to almost any mineralization, and due to improved inhibitory and stabilizing properties, it has higher fastening properties - it increases the stability of argillite and hydromica clay samples by 2.5 times compared with the prototype (clay samples stability in medium of these solutions was determined under uniaxial compression). Moreover, the used tall pitch, saponified with soda ash, contains in its composition, weight. %:

neutral substances 32-35 oxidizing agents 16-18 fatty acid 18-26 fatty acid sodium salts 10-20 sodium salts of resin acids 8-10

Known drilling fluid (3. Usynin A.F., Oleinik S.P., Bogomolov B.D., Tiranov P.P., Ushakov E.A., Sofrygina L.M. Drilling mud. A.S. No. 1315464 , C09K 7/02, 1985), which contains tall pitch, a lignin component, caustic soda, clay powder, diesel fuel (DT) and water. The solution contains sulfate lignin (SL) as the lignin component, and bentonite clay powder (BG) as the clay powder in the following ratio of components, wt. %: BG 1.0-5.0; SL 3.4-10.2; caustic soda 0.29-0.85; tall pitch 1.2-3.6; DT 2.4-7.2; water the rest. To obtain a drilling mud, a clay mud is first prepared, and then stabilized with a combined reagent based on tall pitch and SL. A combined reagent is prepared by dissolving in the 1.0-2.0% solution of caustic soda for 1 h the calculated amount of SL. In parallel, a 30-33% solution of tall pitch in diesel fuel is prepared. Then, a solution of tall pitch in diesel fuel is added to the aqueous alkaline solution of SL with stirring. The reagent is ready in 1 hour. Thus, the thermal stability of the drilling fluid is 270 ° C, and the stability coefficient increases 2.26 times.

The disadvantages of the above stabilizing reagents should be attributed to low efficiency when regulating the values (increase) of viscosity and (decrease) the filtration of the drilling fluid. Their flow rate per unit weight of the drilling fluid can reach 50-60 wt. %, reagents are prepared and used in the form of emulsions (water + diesel fuel) with a solids content of not more than 20% and 22.5%, respectively.

Known invert emulsion drilling fluid (4. Usynin A.F., Tour V.D., Voitenko VS, Telitsina A.I., Goretsky S.N. Invert emulsion drilling fluid. A.S. USSR No. 1134594, C09K 7 / 06, 1983) containing water or a water-based clay solution, diesel fuel, tall pitch, saponified (OTP) with sodium carbonate (soda ash), a by-product of phytosterol production (PPF) and fine chalk in the following ratio of ingredients, wt. %: water or a water-based clay solution 23-39, diesel fuel 40-50, tall pitch, saponified with sodium carbonate 10-12, a by-product of the production of phytosterol 1-3, finely divided chalk 10-12.

The preparation of invert emulsion drilling mud is carried out according to the following technology. In water or in a water-based clay solution, with stirring, part of tall oil pitch, saponified with sodium carbonate, is dissolved in an amount of up to 50 wt. % of the calculated. Then diesel fuel is introduced with the remaining part of the saponified tall oil pitch dissolved in it. PPF and finely divided chalk, which stabilize the emulsion, are added to the resulting emulsion.

The disadvantages of this invert emulsion drilling fluid are low values of relative viscosity - from 37 to 100 s and a static shear stress: SSS for 1 min is 6-12 dPa, SSS for 10 min is 12-20 dPa. Due to the low values of SNA and rheological parameters: plastic viscosity from 14 to 18 cP, dynamic shear stress from 28 to 68 dPa, there is no complete removal of cuttings from drilled rock particles from shallow sections of the wellbore within the zenith angle of 60-80 degrees. High actual filtering invert emulsion drilling fluid (12-14 cm ^3/30 min) measured at temperature and pressure conditions: a temperature of 93 ° C and differential pressure? P = filtration surface 35 kgf / cm ^2, negatively affects the quality of opening of productive formations. By the time of stabilization of the filtration process after 30-36 hours, its values reach 60-70 cm ³ . During this time, a part of the pore space of the reservoir is blocked in the zone of influence of the well — penetration of the filtrate or emulsion.

The disadvantages of invert emulsion drilling fluid are also the increased consumption of hydrocarbon fluid (diesel fuel or oil), emulsifier and emulsion stabilizer - saponified tall oil pitch; high fire hazard when heating a hydrocarbon liquid to a temperature of ~ 80 ° C to dissolve solid saponified tall oil pitch.

A well-known complex stabilizing reagent used for polymer and low-clay drilling fluids, including tall pitch, which additionally contains technical lignosulfonates, caustic soda, a structure-forming agent is a copolymer of acrylamide and sodium acrylate with a molecular weight of 14-106 g / mol - Praestol brand 2530 or highly viscous reagent based on Gipan - HSV and water in the following ratio of ingredients, wt. %: technical lignosulfonates 15-17, caustic soda 5-6, the specified structure-forming agent 15-17, tall pitch 59-62, the rest of the water (5. Ippolitov V.V., Usynin A.F., Zaretsky BC, Urosov S. A., Podshibyakin V.V., Bakharev F.A. Patent RU 2236430, C09K 7/02, 2003).

The disadvantages of a complex reagent-stabilizer of polymer and low clay drilling fluids include the complexity of its preparation, which requires high energy-intensive costs.

As you know, the retention of particles of drill cuttings in suspension in the drilling (flushing) fluid located in the borehole is necessary to prevent sticking of the drilling tool when the circulation stops. To perform this function, the drilling fluid must have thixotropic properties, that is, the ability to transform in the absence of movement from sol to gel with the formation of a structure with a certain stability. The stability of the structure is estimated by the value of static shear stress (SSS).

An object of the invention is to significantly reduce mud filtration while maintaining or increasing the values of static shear stress (SSS) and viscosity of fresh and weakly mineralized fluids while drilling in a hard terrigenous-carbonate section, where it is difficult to maintain the structure of the mud with conventional chemicals (e.g. hydrated lime) .

The implementation of the invention

This goal is achieved through the use of a complex reagent-stabilizer based on tall oil pitch (PKK) for the treatment of fresh and low-mineralized drilling fluids, including tall oil pitch; diesel fuel or oil with a density of from 0.78-0.92 g / cm ³ ; aluminum sulfate (Al ₂ (SO ₄ ) ₃ ); carboxymethyl cellulose (CMC), or hydrolyzed polyacrylonitrile, or starch.

The following ratios of ingredients were investigated:

Composition of KRP 1: Diesel fuel or oil with a density of 0.78-0.92 g / cm ³ - 20%; carboxymethyl cellulose, or hydrolyzed polyacrylonitrile, or starch - 2-2.5%; tall pitch - 2-5%; the rest is water.

Composition of PKP 2: Diesel fuel or oil with a density of 0.78-0.92 g / cm ³ - 25-50%; tall pitch - 3-5%; Al ₂ (SO ₄ ) ₃ (Aluminum sulfate) - 3-5%; the rest is water.

Composition of KRP 3: Diesel fuel or oil with a density of 0.78-0.92 g / cm ³ - 25-35%; carboxymethyl cellulose, or hydrolyzed polyacrylonitrile, or starch - 2.5-4%; tall pitch - 2.5-3.5%; Al ₂ (SO ₄ ) ₃ - 3-4%; the rest is water.

Tall pitch is a non-volatile fraction determined by the distillation of crude tall oil. It consists of esters, fatty and resin acids of phytosterens, hydrocarbon alcohols, etc. (6. Standard TU-13-4000177-184-84. Tallovy pitch for the petrochemical industry).

Aluminum sulfate (aluminum sulfate) is a high-quality chemical substance designed for effective water purification, has a rather low degree of toxicity and is not subject to ignition, self-ignition, that is, it is not combustible and does not constitute an explosive hazard.

Carboxymethyl cellulose is an amorphous colorless substance with a molecular weight of (30-25) ⋅10 ³ ; softening temperature - 170 ° C; a density of 1.59 g / cm ³ . An aqueous solution of carboxymethyl cellulose has thixotropic properties.

Hydrolyzed polyacrylonitrile (Gipan) (7. Standard TU 2458-023-95901562-2012) is a powdered polyacrylonitrile obtained by hydrolysis of a nitron fiber. Gipan is used in water-based drilling fluids to reduce the rate of filtration. Does not affect the change in the viscosity of the drilling fluid. Effectively stabilizes clay drilling fluids, reduces the intensity of solid phase production during drilling, increases the lubricating and anti-stick properties of the drilling fluid. It is used at high temperatures (up to 220 ° C). It is frost-resistant and does not undergo enzymatic decomposition (decay) at high temperatures.

The technology for the preparation of a complex reagent-stabilizer based on tall pitch is simple and includes:

1. Preparation of a water-hydrocarbon solution (diesel fuel or oil + water) with the addition of CMC, or hydrolyzed polyacrylonitrile, or starch (KRP 1 and KRP 3).

2. Tall oil pitch and Al ₂ (SO ₄ ) ₃ (KRP 1 and KRP 2) are dissolved separately in water at a concentration of 20-30%; if necessary, accelerate the dissolution process, the water with tall pitch is heated to 80 ° C.

3. The resulting solution is mixed with an aqueous hydrocarbon solution.

The results of field tests of the proposed formulations of stabilizing reagents aimed at improving the characteristics of the drilling fluid are presented in table. one.

According to the data obtained, it is clear that the addition of KRI of all three compositions had a positive effect on the properties of the drilling fluid (BR). In drilling mud with KPP-1, the conditional viscosity index (T, sec) increased by 2–3 times. In drilling mud with KRP-2, the conditional viscosity indication also increased by 2 times, in addition to the saline test, where the conditional viscosity index decreases. In drilling mud with KRP-3, the indications of conditional viscosity remained or increased by 2 times.

In all cases, an increase in the static shear stress (SSS) from 2 to tens of times is observed: using the composition of KRP-1 by 2–3 times, and using the composition of KRP-3, the filtration property (Ф ₃₀ ) decreased by a factor of 1.5 due to the formation of a poorly permeable elastic crust, using a composition with CRP 2 - filtration property is preserved. The change in density (ρ, kg / cm ³ ) of the clay solution before and after treatment is insignificant (10 kg / cm ³ ).

The developed compositions of complex stabilizing reagents (CRPs) were tested for processing only fresh clay solutions. The values of additives KRP in percentage to the volume of the processed solution: KRP-1 - 10-15%; KRP-2 - 3-5%; KRP-3 - 1-5%.

As a result of field tests, it was found that complex stabilizing reagents have the lubricity and properties of inhibitory additives. The KPP-2, KPP-3 formulations perform inhibitory functions both in salt-saturated clay, and in polymer, and in asbogel solutions.

The use of KRI provides a significant reduction in the cost of expensive chemicals (for example: KSSB-1; 2; 4, borosilicate reagent).

The present invention can be used in a hard terrigenous-carbonate section, where it is difficult to maintain the structure of the clay solution with conventional chemicals.

The technical result is a decrease in filtration (Ф ₃₀ cm ³ ) by 1.5-3 times while maintaining or increasing the values of static shear stress (SSS) and conditional viscosity (T, sec) of fresh and slightly mineralized solutions.

Claims (9)

1. A complex stabilizing reagent for processing fresh and low-mineralized drilling fluids, including tall oil pitch, characterized in that it additionally contains diesel fuel or oil with a density of 0.78-0.92 g / cm ³ , carboxymethyl cellulose, or hydrolyzed polyacrylonitrile, or starch in the following ratio of ingredients, wt.%: diesel fuel or oil with a density of 0.78-0.92 g / cm ³ twenty carboxymethyl cellulose, or hydrolyzed polyacrylonitrile, or starch 2-2.5 tall pitch  2-5 water rest 2. A complex stabilizing reagent for the treatment of fresh and low mineralized drilling fluids, including tall pitch, characterized in that it additionally contains diesel fuel or oil with a density of 0.78-0.92 g / cm ³ , aluminum sulfate (Al ₂ (SO _{2 4} ) ₃ ) in the following ratio of ingredients, wt.%: diesel fuel or oil with a density of 0.78-0.92 g / cm ³ 25-50 tall pitch 3-5 aluminum sulfate 3-5 water rest 3. A complex stabilizing reagent for the treatment of fresh and low-mineralized drilling fluids, including tall pitch, characterized in that it additionally contains diesel fuel or oil with a density of 0.78-0.92 g / cm ³ , aluminum sulfate (Al ₂ (SO _{2 4} ) ₃ ), carboxymethyl cellulose, or hydrolyzed polyacrylonitrile, or starch in the following ratio of ingredients, wt.%: diesel fuel or oil with a density of 0.78-0.92 g / cm ³ 25-35 carboxymethyl cellulose, or hydrolyzed polyacrylonitrile, or starch 2.5-4 tall pitch 2.5-3.5 aluminum sulfate 3-4 water rest 4. A method of preparing a complex reagent-stabilizer of fresh and low-mineralized drilling fluids, including the preparation of an aqueous hydrocarbon solution (diesel fuel or oil + water) with the addition of carboxymethyl cellulose or hydrolyzed polyacrylonitrile or starch, separate dissolution of tall oil pitch in water with heating to 80 ° C, mixing the resulting solution with an aqueous hydrocarbon solution in accordance with the ratios specified in paragraph 1. 5. A method of preparing a complex reagent-stabilizer of fresh and low-mineralized drilling fluids, including the preparation of an aqueous hydrocarbon solution (diesel fuel or oil + water) with the addition of aluminum sulfate, separate dissolution of tall oil pitch in water with heating to 80 ° C, mixing the resulting solution with aqueous hydrocarbon solution in accordance with the ratios specified in paragraph 2. 6. A method of preparing a complex reagent-stabilizer of fresh and low-mineralized drilling fluids, including the preparation of an aqueous hydrocarbon solution (diesel fuel or oil + water) with the addition of aluminum sulfate and carboxymethyl cellulose, or hydrolyzed polyacrylonitrile, or starch, separate dissolution of heated tall pitch in water up to 80 ° C, mixing the resulting solution with an aqueous hydrocarbon solution in accordance with the ratios specified in paragraph 3.