UA19512U - Composition to prepare reagent for field treatment - Google Patents

Abstract

Composition for reagent for field treatment making includes lingo-sulfate modified condensed dry technical (LMK-ST), water-soluble high-molecular copolymer of acryl-amide and sodium acrylate of type ôPraestolö, technical water, acetic (ethane) acid, potassium of soda.

Description

Description of the invention

A useful model applies to the oil and gas production industry, in particular, to mixtures intended for 2 chemical impact on the near-bottom zone of the formation (PZP).

A known method of chemical influence on the PZP and part of the perforated casing string, which includes the injection of an aqueous solution of acids into the wellbore and further into the formation through pump-compressor turbines (tubes) by Yu.V. Zaitsev,

Yu.A. Balakyrev, Dobyicha neft i gaza, M., Nadra, 1981, p. 3841.

However, the disadvantage of this method is the need to place containers with acids and 70 units that inject acids into the well near the wellhead. Such work technology creates danger for personnel and the surrounding environment. In addition, the effectiveness of the chemical action of the acid is unpredictable, which is due to the high corrosive properties of this or that acid. As a result, the tubing is exposed to acid corrosion with the formation of iron salts, which, after neutralization of the acid, hydrolyze and precipitate, which causes a negative impact on the productivity of the well, due to clogging with the PZP sediment. 12 Along with this, there is a known method of chemical treatment of PZP to prevent corrosion of tubing and clogging of the steam layer with corrosion products, in which a composite mixture is used for processing PZP, as an acid reagent, containing hydrofluoric acid with activated carbon, a surface-active substance (surfactant) in in the form of lignosulfate, oil, gas condensate or diesel fuel. At the same time, hydrofluoric acid and activated carbon are pre-mixed to obtain a gel-like mass, which is dried to the state of a loose material (patent of Ukraine Mo37667A, E21821/14, Byul. Mo4, 2001).

However, although the proposed acid mixture is characterized by a high solubility and a high protective effect against corrosion, which leads to the elimination of a number of the indicated shortcomings in the given known method, at the same time, its disadvantage is the complexity of the industrial production of hydrofluoric acid in an inactive form, that is, in the form powder, with the requirement to preserve the active structure for entering the PZP when the composite mixture is injected into the well. As a result of the fact that when the acid mixture is injected through the tubing, there is a process of mixing not only the components of the composite mixture, but also, at the same time, the fluid surrounding medium - the well fluid - oil, gas and other accompanying aggressive impurities, in practice we have an unpredictable liquid of the well, which makes it impossible to store the acid in an inactive form until it enters the PZP. For example, in watered oil wells, in which the available hydrophobic solution is not able to maintain the initial acid state. In addition, the disadvantage of this composite mixture as an acid "reagent" is that during the injection of the composite mixture into the well, which has a given defined number of components, the mixture before injection into the well must be constantly adjusted according to the quantitative content of one or another component, which significantly limits the mass application of the reagent. Ge")

The closest in terms of chemical composition and use in the oil and gas industry to the 325 useful model, which is claimed, is the composition containing lignosulfate modified condensed dry - technical (LMK-ST), water-soluble high molecular weight copolymer of acrylamide and sodium acrylate of the "Praestol" type and technical water (patent of Ukraine Mo 8682, ОО, Е21821/00, СО9К7/00, Byul. Mov, 2005|.

But this reagent mixture is characterized by the properties inherent in drilling muds intended for obtaining drilling muds with a low content of the solid phase. WITH

The useful model is based on the task of creating such a composition on the basis of a known composition, which would be suitable for chemical treatment of the well formation, by selecting the necessary acid components and

From" due to the determination of their quantitative ratio in the composition, which makes it possible to ensure the production of an acidic reagent endowed with the properties of a chemical effect on PZP.

The task was solved as follows: a composition containing lignosulfate modified condensed dry technical (LMK-ST), a water-soluble high-molecular copolymer of acrylamide and sodium acrylate type - "Praestol" and technical water, according to a useful model, additionally contains a monobasic carboxylic acid, where as (se ) carboxylic acid, acetic (ethanoic) acid is used, and salts of carbonic acid, for example, potash or soda, with this ratio of components, wt. 90: 1 - 20 lignosulfate modified condensed dry technical (LMK-ST) 25.0-30.0 high molecular weight copolymer of acrylamide and sodium acrylate of the "Praestol" type 0.5-1.0 o) acetic (ethanoic) acid 35.0- 40.0 potash or soda 1.5-2.0 water technical residue. c The introduction of a certain amount of acetic acid and potash or soda makes it possible to obtain a new composite component - an acid reagent, which is suitable for chemical treatment of the well bed. Thus, we have a necessary and sufficient solution for solving the given problem.

The presence in the composition of a sufficient amount of modified lignosulfate gives the composite mixture 60 hydrophobic properties, as a result of the elimination of coalescence, which causes the preservation of the original concentration of the acid reagent when it is injected through the pipeline to the PZP.

At the same time, the presence of lignosulfate in the acid-base reagent slows down the action of the latter, which causes a gradual chemical effect on the PZP. The use of a high-molecular copolymer of acrylamide and sodium acrylate of the "Praestol" type due to its flocculating properties prevents the dispersion of particles, thus eliminating artificial blockages, which contributes to the high permeability of the injection reagent in the PZP.

At the same time, precisely due to the defined interval of the content of the components introduced into the composition, it became -Д-

it is possible to obtain an acidic reagent, which, when injected into the well, is able to maintain a low concentration of the solid phase, and in the PZP, an increase in the stimulation of oil inflows is achieved.

These limit intervals were determined in the laboratory and confirmed by industrial studies. According to the results of the latter, it was established that: when the quantitative composition of acetic acid is changed to a smaller side by 2965, the effect on the PZP is significantly reduced, which can most likely be explained by the chaotic nature of the gas movement; when the quantitative composition of acetic acid is changed to a greater side by 295, the composition of the reagent loses the parameters inherent in the state of the solid phase. 70 Therefore, a new acidic reagent was proposed, which has the properties of a chemical effect on PZP.

The composition for the preparation of the reagent for processing the formation is prepared as follows.

For the production of an acid reagent, the following are used: - lignosulfate modified condensed dry technical (LMK-ST) according to TUUZO406779-001-200; - high molecular copolymer of acrylamide and sodium acrylate type "Praestol" 2530, 2540 according to TU 75. 2216-001-400910172-98; - acetic (ethanoic) acid according to TU Ub.09-07-18-17-95 or according to GOST 6968-78; - potash according to GOST 2156-76; - soda according to GOST 5100-85; - technical water with a solids content of no more than 0.1 g/dm? at a temperature of 202C.

Example.

The calculated amount of acetic acid and the base (potash or soda) are mixed together. Then, with the help of a weighing dosimeter, add the calculated amount of lignosulfate modified condensed dry technical (LMK-ST) and with the help of the same dosimeter, add the calculated amount of high molecular weight copolymer of acrylamide and sodium acrylate type "Praestol". After that, water is added and thorough mixing is carried out

Mix until a homogeneous mixture is formed. WITH

The prepared acid reagent has the following ratio of components, mass.9o:

Composition 1. lignosulfate modified condensed dry technical (LMK-ST) 25.0 si high molecular copolymer of acrylamide and sodium acrylate of the "Praestol" type 0.5 acetic (ethanoic) acid 35.0 - potash or soda 1.5 Io) water technical remainder . Fo

Composition 2. «- lignosulfate modified condensed dry technical (LMK-ST) 28.0 high molecular weight copolymer of acrylamide and sodium acrylate type "Praestol" 0.8 acetic (ethanoic) acid 38.0 « potash or soda 1.7 c technical water rest. :z» Composition 3. lignosulfate modified condensed dry technical (LMK-ST) Code) high molecular copolymer of acrylamide and sodium acrylate of the "Praestol" type 1.0 - acetic (ethanoic) acid to

I«e) potash or soda 2.0 s water technical remainder. -shо 70 The prepared composition of the acid reagent according to Moi, 2 and Z is sealed in a hermetic container. The composition of the acid reagent is used in the form of an aqueous solution, which is prepared directly at the mouth of the well, for example, using a four-cube clay mixer. Comparative data with the closest analogues allow us to conclude that the proposed acid reagent has a high solubility and is endowed with a protective effect against corrosion. This makes it suitable for chemical processing of PZP. A technological regulation has been developed for the serial production of 22 reagents. with

Claims (1)

The formula of the invention 6o The composition for the preparation of the reagent for the treatment of the layer, which contains lignosulfate modified condensed dry technical (LMK-ST), water-soluble high molecular weight copolymer of acrylamide and sodium acrylate of the "Praestol" type and technical water, which is distinguished by the fact that it additionally contains a monobasic carboxylic acid, and as acetic (ethanoic) acid is used for carboxylic acid, and salts of carbonic acid, for example, potash or soda, with this ratio of components, wt. 9 o'clock: b5 lignosulfate modified condensed dry technical (LMK-ST) 25.0-30.0 high molecular weight copolymer of acrylamide and sodium acrylate of the "Praestol" type 0.5-1.0 acetic (ethanoic) acid 35.0-40.0 potash or soda 1.5-2.0 water technical residue. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2006, M 12, 15.12.2006. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. 76 U r z z s - IF) (o) yo - and? - se) 1 - 70 Ko) 60 b5