SU452662A1 - Method of modifying highly mineralized drilling fluids - Google Patents

Description

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The invention relates to a method for modifying highly mineralized drilling fluids for drilling deep and ultra-deep wells for oil and gas.

In the process of drilling, with an increase in temperature up to 18 ° C and higher with increasing mineralization, the activity of the used reagents sharply decreases, since they finish destroying and lose the stabilizing properties. In particular, one of the most effective synthetic stabilizing agents for highly mineralized drilling fluids, carboxymethyl cellulose (CMC) of various degrees of polymerization and esterification, loses its stabilizing properties already at 13 O-16 O C due to thermo-oxidative destruction.

There is a method of modifying drilling fluids by treating them with carboxymethylcellulose and an inhibitor of thermal-oxidative degradation or the product of their interaction, as a result of which heat-resistant drilling muds are obtained. However known

The methods do not provide a sufficiently high thermal stability of the solutions.

In order to protect the CMC from thermal oxidative degradation, it is proposed to use ionol as a degradation inhibitor. By adding 1–2.5% ionol to the drilling fluid treated with CMC, even under conditions of saturation with sodium chloride, as well as in the presence of calcium and magnesium salts, a rather high stability of the flushing fluid subjected to heat treatment at 210 ° C 5 for 2 hour. and more (see tab., 1

The presence of ionol in the drilling solution not only increases its thermo-resistant resistance, but also significantly improves its lubricating properties, which increases the stability of the bit support and reduces hydraulic losses. In addition, the drilling fluid containing the ionol, helps prevent the installation and tightening, protects the drilling tool from corrosion, and borehole walls from swelling, etc. As a modifying additive, it is possible to introduce into the solution the product of the interaction of carboxymethyl

3 lyupozy, and ionrpa, obtained by introducing andGybitor in the synthesis of carboxymethyl cellulose at any stage. In this case; In tea, the consumption of the offender is reduced to 100; 500 times, and the stability of the washing liquid, which is subjected to heat treatment at 210 + 5 ° C for 2 hours or more (see Table 2), is at a high level. The product of the reaction of carboxylmethylcellulose and ionol-car (5-bionol is a powdery substance, soluble in water. Treatment of drilling fluids of various degrees of mineralization (up to a wide range of salt and calcium and magnesium) carboric ionol carried out by adding it to the solution in quantities of 1-2.5% (depending on the degree of mineralization of the circulating solution and bottomhole temperature) in a dry form, or in the form of a 5-10% solution. The results of the treatment of highly mineralized b The level of the thermo-salt reagent solutions listed in Table 2 suggests that carbonoiol has a beneficial effect on drilling fluids aged at 200-5 ° C for 2 hours or more. The presence of carbrionol in the drilling fluid does not only lead to its thermo resistance. , but also to a significant improvement in its lubricating properties, which increases the stability of the bit support, reduces hydraulic losses, and also helps to prevent landings and throttling, protects the borehole walls from swelling, etc. Thus, the introduction of carbon la j in the drilling fluid results in the same S4 defects that administering ionol {cm. tab. 3). The subject of the invention is a method for modifying highly mineralized drilling fluids by treating them with carboxymethyl cellulose and a thermo-oxidative degradation inhibitor, or by npoAyKf their interaction, characterized in that, in order to improve the thermo tolerance of solutions, as an inhibitor of ionol.

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