RU2363717C1 - Composition for preparing process liquid for completion and repair of oil and gas wells - Google Patents

Abstract

FIELD: oil and gas production.

SUBSTANCE: invention refers to completion and repair of oil and gas wells under conditions of abnormal high reservoir pressure and high temperature. Composition for preparing process liquid for completion and repair of oil and gas wells contains salts of zinc and calcium including calcium chloride and corrosion inhibitor of amine type. As salt of zinc and calcium the composition contains zinc chloride and calcium nitrate, additionally it contains zinc oxide or zinc acetate at the following ratio of components, wt %: zinc chloride 15.3-54.4, calcium chloride 22.2-42.0, calcium nitrate 22.2-42.0, zinc oxide or zinc acetate 0.3-0.5, and inhibitor of corrosion of amine type 0.4-0.7. The composition can additionally contain reagent - oil wetting agent IBB-1 at weight of 0.1-0.2% from weight of composition.

EFFECT: convenient transporting of composition, low cost of liquid prepared out of it and reduced temperature of crystallisation to mines values at simultaneous reduction of corrosion rate.

2 cl, 1 tbl, 6 ex

Description

The invention relates to the completion and repair of oil and gas wells for conditions of abnormally high reservoir pressures and high temperatures.

In many fields, due to geological conditions, as well as as a result of intensive development modes, when they are affected by a reservoir pressure maintenance system, there are abnormally high pressure gradients of the order of 1, 6 and higher. Highly concentrated brines consisting of a mixture of two or three components, most often bromine-containing brines, are used for such gradients abroad. The bromides used are very expensive and scarce. Known technological liquids based on them have a high crystallization temperature, which limits their use in Siberia and the Far North - the main oil producing regions where the need for liquids without a solid phase with a density of more than 1600 kg / m ^{3 is} relevant.

Known high-density liquid for well repair, including brine of calcium bromide and zinc bromide, not containing a solid phase and having a crystallization temperature of 10.6 ° C (see US No. 4304677, 1981).

The main disadvantage of this liquid is its high cost, high value of corrosion activity, especially at temperatures above 90 ° C, and its positive crystallization temperature.

The closest in combination of features to the claimed is a composition for preparing a high density fluid for completion and repair of wells, containing zinc bromide and calcium bromide, and additionally calcium chloride and an amine type corrosion inhibitor (see US No. 4292183, 1981).

The disadvantage of this composition, in addition to its high cost and high values of corrosion activity, is the positive temperature of crystallization of the liquid (10.6 ° C). In addition, with the increasing share of transportation costs in the cost estimates, transportation of liquid products is economically disadvantageous. The disadvantages listed above make it practically impossible to use this composition and technological fluids based on it, especially in remote northern regions.

The objective of the invention is the creation of a composition for the preparation of process fluids without a solid phase for wells with abnormally high reservoir pressures having a reservoir pressure gradient from 1.6 to 1.9, consisting of inexpensive salts used in dry form.

The new composition should provide for the preparation of technological liquids without a solid phase with a density of more than 1600 kg / m ³ and up to 1900 kg / m ³ having acceptable corrosion rates and crystallization temperatures that can be used in Siberia and the Far North. This composition should consist of a mixture of dry salts and be cheaper than the foreign analogues used - bromides.

This object is achieved in that the composition for the preparation of process fluids without a solid phase (with a density of more than 1600 kg / m ³ ) for completing and repairing oil and gas wells contains zinc and calcium salts, including calcium chloride, and an amine type corrosion inhibitor.

New in the composition is that, as zinc and calcium salts, it contains zinc chloride and calcium nitrate and additionally contains zinc oxide or zinc acetate in the following ratio, wt.%:

zinc chloride 15.3-54.4 calcium chloride 42.0-22.2 calcium nitrate 42.0-22.2 zinc oxide or zinc acetate 0.3-0.5 amine type corrosion inhibitor 0.4-0.7

The composition may additionally contain a reagent - water-repellent IVV-1 in an amount of 0.1-0.2% by weight of the composition.

As an amine type corrosion inhibitor, the composition contains hexamethylenetetramine or ethylenediamine.

The IVB-1 water-repellent reagent is produced at ZAO Bursintez NPF and is a mixture of alkyldimethylbenzylammonium chloride and tertiary amine quaternary ammonium salt. It is added to the composition for the preparation of liquids with a density of 1900 kg / m ³ . When interacting with the components of the claimed composition, the reagent-hydrophobizator IVV-1 reduces the corrosive activity of the brine.

The technical result achieved by the claimed composition is that the combination of the components of the mixture in the claimed ratio exhibits a new property that is unattainable by the known compositions — a decrease in the crystallization temperature of the prepared high-density liquid to negative values. This can be explained by a change in the intermolecular interaction of the components of the composition during the preparation of a technological liquid from it, in which, at the time of supersaturation of the solution, a crystallization structure is formed, which includes double salts with greater solubility in water than individual salts. The manifestation of the claimed composition of a new property allows you to use it in Siberia and the Far North.

The known high corrosion activity of zinc chloride in the claimed combination of component composition is reduced by neutralizing the products of its hydrolysis by introducing, for example, zinc oxide or zinc acetate.

For liquids with a density of 1900 kg / m ³ , the corrosion rate is kept within acceptable limits due to the addition of a reagent - water-repellent IVV-1.

The process of preparing the inventive composition is carried out by mixing the components. Preparation of process fluids is carried out by dissolving the dry salt composition of the resulting composition in fresh or mineralized water.

For comparison with the claimed composition prepared and tested known liquids.

Example 1. In a mechanical mixer, 965 ml of CaCL ₂ / CaBr ₂ brine with a density of 1790 kg / m ³ and 35 ml of CaBr ₂ / ZBr ₂ brine with a density of 2300 kg / m ^{3 were} mixed. Received 1000 ml of brine with a density of 1800 kg / m ³ were tested for corrosion activity, crystallization and conditional viscosity in accordance with the applicable methods. The test results are presented in the table, experiment 1.

Example 2. In a mechanical stirrer, 800 ml of CaCl ₂ / CaBr ₂ brine with a density of 1790 kg / m ³ and 200 ml of CaBr ₂ / ZBr ₂ brine with a density of 2300 kg / m ^{3 were} mixed. Received 1000 ml of brine with a density of 1900 kg / m ^{3 was} tested analogously to example 1. The test results are presented in the table, experiment 2.

The following are examples of the preparation of process liquids without a solid phase based on the inventive dry salt composition.

Example 3. In a mechanical stirrer was mixed 153 g (15.3 wt.%) Zinc chloride, 420 g (42.0 wt.%) Calcium chloride, 420 g (42.0 wt.%) Calcium nitrate, 3 g (0 , 3 wt.%) Zinc oxide and 4 g (0.4 wt.%) Of a corrosion inhibitor, for example ethylenediamine. The resulting composition was dissolved in 560 ml of water. Received 916 ml of brine with a density of 1700 kg / m ^{3 was} tested analogously to example 1. The test results are presented in the table, experiment 3.

Example 4. 350 g (35.0 wt.%) Of zinc chloride, 320 g (32.0 wt.%) Of calcium chloride, 320 g (32.0 wt.%) Of calcium nitrate, 4 g (0) were mixed in a mechanical stirrer. , 4 wt.%) Zinc oxide and 6 g (0.6 wt.%) Of a corrosion inhibitor, for example hexamethylenetetramine. The resulting composition was dissolved in 358 ml of water. The resulting 750 ml of brine with a density of 1800 kg / m ^{3 was} tested analogously to example 1. The test results are presented in the table, experiment 4.

Example 5. 544 g (54.5 wt.%) Of zinc chloride, 222 g (22.2 wt.%) Of calcium chloride, 222 g (22.2 wt.%) Of calcium nitrate, 5 g (0) were mixed in a mechanical stirrer. 5 wt.%) Zinc oxide and 5 g (0.5 wt.%) Of a corrosion inhibitor, for example ethylenediamine. The resulting composition was dissolved in 257 ml of water. Received 655 ml of brine with a density of 1900 kg / m ^{3 was} tested analogously to example 1. The test results are presented in the table, experiment 5.

Example 6. In a mechanical stirrer, 544 g (54.5 wt.%) Of zinc chloride, 222 g (22.2 wt.%) Of calcium chloride, 222 g (22.2 wt.%) Of calcium nitrate, 5 g (0) were mixed. , 5 wt.%) Zinc oxide, 7 g (0.7 wt.%) Of a corrosion inhibitor, for example a mixture of ethylenediamine, and 1.5 g of IVB-1 reagent. The resulting composition was dissolved in 257 ml of water. Received 655 ml of brine with a density of 1900 kg / m ^{3 was} tested analogously to example 1. The test results are presented in the table, experiment 6.

The data in the table confirm the receipt of the technical result: a decrease in the corrosion rate, crystallization temperature and the cost of the process fluid with a density of more than 1600 kg / m ³ prepared from the claimed composition. In addition, the convenience of transporting the composition in the form of a dry composition is achieved.

The composition of the process fluid (No. experience) Process Fluid Properties The cost of 1 m ³ technological fluid, thousand rubles Density, kg / m ³ Conditional viscosity, s pH Corrosion rate of steel "d". At 90 ° C, mm / year Crystallization temperature, ° С one 1800 32 5.7 0.24 +17 97.5 2 1900 37 5,0 0.46 +11 122.0 3 1700 130 4.0 0,030 -28 41.0 four 1800 160 3.0 0,040 -28 46.0 5 1900 200 1.3 0,110 -thirty 51.0 6 1900 200 1.3 0,090 -thirty 51,2

Claims (2)

1. The composition for the preparation of process fluids for the completion and repair of oil and gas wells, containing zinc and calcium salts, including calcium chloride, and an amine-type corrosion inhibitor, characterized in that it contains zinc chloride and nitrate as zinc and calcium salts calcium and additionally contains zinc oxide or zinc acetate in the following ratio, wt.%:
zinc chloride 15.3-54.4 calcium chloride 22.2-42.0 calcium nitrate 22.2-42.0 zinc oxide or zinc acetate 0.3-0.5 amine type corrosion inhibitor 0.4-0.7 2. The composition according to claim 1, characterized in that it further comprises a reagent-water repellent IVV-1 in an amount of 0.1-0.2% by weight of the composition.