RU2087677C1 - Method for preventing salt settling in oil production equipment - Google Patents

Abstract

FIELD: oil production industry. SUBSTANCE: according to method, injected into bottom-hole zone of well is solution of salt-settling inhibitor, hydrophilic forcing-down liquid, and alkali. Used as salt-settling inhibitor is compound containing following components, mass %: nitrilotrimethylphosphonous acid 4.97-13.57, muriatic acid 11.24-23-74, water - the balance. EFFECT: high efficiency.

Description

 The invention relates to the field of oil production, in particular to methods for preventing the deposition of inorganic salts, and can be used to prevent scaling in the bottomhole formation zone, in downhole and oilfield equipment.

 A known method of preventing scaling in oilfield equipment by entering into the bottomhole zone of the well of the following composition, wt.

Nitrilotrimethylphosphonic acid 4.97-13.57
Hydrochloric acid 11.24-23.74
Water the rest
and selling it into the reservoir by selling liquid at the same time produced water (as USSR AS N 996721, class E 21 B 43/12, 1980).

 However, this method does not provide the deposition of all injected inhibitor on the rock formation. In fact, it turns out that only part of the inhibitor (10-15%) is fixed on the surface of the reservoir, and most of it is carried out during the first two days of well operation. Therefore, this method is ineffective.

 Closest to the proposed technical solution for its intended purpose and technical essence is a method of preventing scaling in oilfield equipment (a. From the USSR N 1268715, class E 21 B 37/06, 1983), which is carried out as follows. 0.5-5.0 wt. a pre-prepared inhibitor solution in produced water, acidified to a pH of less than 2.0 hydrochloric acid and containing at least 2.0 g / l of calcium ions.

 Before or after injection of the inhibitor solution, 0.5-2.0 wt. a solution of soda or alkali. An inert (hydrophobic) liquid is pumped as a buffer layer in order to avoid premature reaction between a solution of soda or alkali. Then a hydrophobic squeezing liquid is injected gas condensate to push the mixture deep into the reservoir. The use of a hydrophobic selling fluid gives the known method a bifunctional nature, aimed at the same time to treat oil-saturated reservoirs from asphalt-resin-paraffin deposits.

 However, with all the advantages of this known method, it has a significant drawback due to the fact that a hydrophobic type liquid is used as a squeezing liquid. In the implementation of the known method, the acid solution of the inhibitor and the alkaline solution fall into the washed hydrophilic layer. The gas condensate used in the known method as a squeezing liquid, due to its hydrophobicity, cannot get into the hydrophilic layer and, therefore, cannot push the alkali front into the formation and increase the mixing of the acid solution of the inhibitor and alkali, which ultimately does not lead to neutralization of the acid, and, therefore, to improve the deposition of the inhibitor in the reservoir. And this, in turn, leads to uneven removal of the inhibitor in the wellbore and to a reduction in the duration of its action.

 The present invention solves the technical problem of ensuring uniformity of removal of the scale inhibitor from the formation into the wellbore and increasing its duration by improving the deposition of the inhibitor in the formation while maintaining the reservoir properties of the oil-saturated formation.

 The stated technical problem is solved by the fact that in the known method of preventing scaling in oilfield equipment, which includes sequential injection into the well of an acid solution of a scale inhibitor of an organophosphorus type, an alkali solution and a squeezing liquid, an composition with the following content of ingredients, wt. .

Nitrilotrimethylphosphonic acid 4.97-13.57
Hydrochloric acid 11.24-23.74
Water the rest
and a hydrophilic type fluid is used as the squeezing liquid.

 The proposed method differs from the known using a different inhibitory composition and a different selling fluid. From the analysis of scientific, technical and patent literature, the use of such a composition and such a liquid to achieve the technical task is not known. Based on this, we believe that the proposed technical solution meets the criterion of "inventive step".

 From the prior art, we do not know a method of preventing scaling, containing a combination of essential features of the proposed method, which allows us to conclude that it meets the criterion of "novelty."

 Due to the fact that in the proposed method it is proposed to carry out sequential injection of an acid solution of a scale inhibitor, an alkali solution and a hydrophilic squeezing liquid, it is possible to uniformly deposit the entire inhibitor on the formation rock along the entire path of the injected solutions, and therefore, increased adsorption capacity of almost the entire inhibitor is provided (the adsorption capacity will be higher, the thinner the deposited layer). After such a treatment of the formation, when the formation fluid moves to the wellbore, it is uniformly enriched with the inhibitor for a long time.

 The proposed method was tested in the field at 5 wells.

For its implementation, the following substances and equipment were used:
nitrilotrimethylphosphonic acid according to TU 6-09-20-1-74;
hydrochloric acid according to TU 6-01-714-87;
alkali (NaOH);
fresh water for the preparation of alkaline solution and as a squeezing liquid;
From the equipment:
1-ЦА-320 cemented aggregate;
acidifier AZ-30 2 pcs.

 ATsN tank truck 1 pc.

 An example implementation of the proposed method in the field.

The method was tested at well No. 1043 of the Shagiro-Gozhansky field. The characteristics of this well are as follows:
drilled face 1360 m;
perforation intervals 1294.3-1286.5 m; 1302-1308.9 m;
Lower Carboniferous deposits of the Yasnaya Polyana over horizon;
terrigenous reservoir, fine-grained sandstone.

The formation treatment was carried out as follows. A pre-prepared 10% solution of NTF in hydrochloric acid of 22% concentration was pressed into the reservoir, then a buffer of fresh water was pumped in a volume of 1.5-2 m ³ . Then, a 10% alkali solution with a volume of 8 m ^{3 was} pumped into the well, and all this was forced into the reservoir by hydrophilic medium — fresh water with a volume of 16 m ³ .

 Subsequent studies of the indicated well showed that the removal of the inhibitor from this well continued through 12, 157, 263 and even after 378 days without reducing the flow rate of the well. Thus, as a result of only one treatment of the indicated well by the proposed method, the overhaul period of the well increased by 1.6 times.

 The same results were obtained by processing the remaining four wells by the proposed method: the overhaul period of their work increased by 1.5-2 times without reducing the flow rate of the wells.

Claims (1)

 A method of preventing scaling in oilfield equipment, comprising sequential injection of a scaling inhibitor containing, wt. nitrilotrimethylphosphonic acid 4.97 - 13.57, hydrochloric acid 11.24 23.74 and the rest water, and a hydrophilic squeezing fluid, characterized in that alkali is additionally pumped into the bottom hole of the well before the hydrophilic squeezing fluid.