RU2483092C1 - Composition of polysaccharide gel for killing of high-temperature wells - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: composition of polysaccharide gel for killing of high-temperature wells contains fresh or mineralised water, polysaccharide thickener, cross-linking agent - chrome acetate with magnesium oxide; in addition, it contains calcium chloride added after the rest components in the quantity of 112-145 g per litre of fresh water or 47-73 g per litre of mineralised water with density of 1.12 g/cm³ at the following component ratio, wt %: polysaccharide thickener 0.8-1.2, chrome acetate 0.05-0.1, magnesium oxide 0.04-0.08, calcium chloride 10-12.5, fresh water is the rest, or polysaccharide thickener 0.8-1.2, chrome acetate 0.05-0.1, magnesium oxide 0.04-0.08, calcium chloride 4-6, mineralised water with density of 1.12 g/cm³ is the rest.

EFFECT: increasing the killing efficiency of wells developing high-temperature formations, or which are effected with steam and heat.

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Description

The invention relates to the oil industry, in particular, to compositions for killing high temperature wells, and can also be used to limit water inflows to oil wells.

The known composition of the polysaccharide gel for hydraulic fracturing, containing fresh or mineralized water, a polysaccharide thickener, a boric crosslinker, diethanolamine and Quaternary ammonium compounds (Patent RU No. 2173772, IPC ЕВВ 43/26, publ. September 20, 2001).

The disadvantage of the composition is that it cannot be successfully used as a fluid for killing high-temperature wells, because Due to the high adsorption of cationic surfactants on the rock, the interfacial tension at the border with oil increases, which can reduce the flow of oil after killing the well.

The known method (Patent RU No. 2346151, IPC ЕВВ 43/22, С09К 8/514, published on 02/10/2009, bull. No. 4) for regulating the development of oil fields (options), including the injection of a gelling composition based on a polysaccharide, a compound of a polyvalent metal, water and technological exposure for gelation. Guar gum is used as a polysaccharide, magnesium oxide is used as the indicated polyvalent metal compound in the presence of chromium acetate in both fresh and mineralized water, and aging is carried out from 3 to 5 days in the following ratio of components, wt.%: Guar gum - 0.2-0.5, magnesium oxide - 0.02-0.04, chromium acetate - 0.01-0.12, water - the rest. The disadvantage of this method is the inability to use the specified gel-forming composition as a fluid for killing high-temperature wells due to the long gelation time.

The closest in technical essence to the proposed one is the composition of the polysaccharide gel for killing wells (Patent RU No. 2224609, IPC ЕВВ 43/12, publ. 02.20.2005, bull. No. 5), which contains fresh or mineralized water, polysaccharide thickener, boron crosslinker , diethanolamine, quaternary ammonium compounds and a mixture of nonionic and anionic surfactants in an amount of 0.1-0.5 kg per 1000 l of water - the basis of the gel.

The disadvantage of the composition is its multicomponent, which complicates the process of preparing the composition in the field. Also, the composition is not effective as a fluid to kill high-temperature wells due to the fact that it contains nonionic surfactants that are unstable to high temperatures.

The technical task of the proposed solution is to create a composition based on a polysaccharide gel, which allows killing of high-temperature wells developing high-temperature formations, or on which steam and thermal action is performed.

To solve the technical problem, a composition of a polysaccharide gel for killing high-temperature wells was developed, containing fresh or mineralized water, a polysaccharide thickener, a crosslinker - chromium acetate with magnesium oxide.

New is that the composition additionally contains calcium chloride, introduced after the remaining components in the amount of 112-145 g per 1 liter of fresh water or 47-73 g per 1 liter of mineralized water with a density of 1.12 g / cm ³ in the following ratio of components, wt.%:

polysaccharide thickener 0.8-1.2 crosslinker - chromium acetate 0.05-0.1 crosslinker - magnesium oxide 0.04-0.08 calcium chloride 10-12.5 fresh water rest

or

polysaccharide thickener 0.8-1.2 crosslinker - chromium acetate 0.05-0.1 crosslinker - magnesium oxide 0.04-0.08 calcium chloride 4-6 mineralized water with a density of 1.12 g / l rest.

Guar (guar gum), TU 2458-019-57258729-2006 are used as a polysaccharide thickener.

Chromate acetate (AX), TU 2499-001-50635131-00 and magnesium oxide (OM), TU-6-09-3023-79 are used as a crosslinker.

Use calcium chloride (HC) CaCl ₂ according to GOST 450-77.

Fresh water is used with a total salinity of up to 5 g / l, or saline water with a salinity of over 100 g / l.

To successfully carry out repair and insulation works in wells, modern highly effective chemical reagents and integrated technologies for their application for killing and developing wells in difficult geological and technical conditions are required. It is especially difficult to carry out such work at high temperatures in the bottomhole zone of the well. The temperature at the bottom of these wells reaches 80 ° C and higher (deposits in Western Siberia, Kazakhstan), such wells are classified as high-temperature. Also, high temperatures in the near-well zone of the well are observed during the steam-thermal treatment of the formation (Ashalchinskoye field).

When injected into the indicated wells of the proposed composition, the polysaccharide thickener in the presence of a crosslinker under the influence of high temperatures turns into a polysaccharide gel - a crosslinked fixed system. Due to this, the proposed structure is not filtered into the low-permeable part of the reservoir, which allows you to save the reservoir properties of the bottom-hole zone of a high-temperature well after killing. The proposed composition penetrates into the highly permeable part of the bottom-hole zone of a high-temperature well for a short distance, because under the influence of temperature it quickly loses mobility and turns into an elastic gel that can clog this part of the formation, stop the flow of fluid and shut off the well for repair work, or limit water production during waterproofing works.

The main requirement for compositions intended for killing high-temperature wells is the thermal stability of the composition. Thermostability is understood as the absence of precipitation, turbidity or salting out of the components of the composition under the influence of high temperatures.

The proposed composition based on a polysaccharide thickener, a crosslinker and calcium chloride has high thermal stability. The thermal stability of the proposed composition was studied at temperatures of 120-150 ° C. The compositions were maintained at the indicated temperatures for 8 hours, while they retained their compositional stability, not one of the above factors was observed, indicating the destruction of the gel. The compositions were prepared in fresh or saline water. To strengthen the composition, calcium chloride is additionally introduced into it, the amount of which depends on the salinity of the water on which the composition is prepared. The maximum concentration of calcium chloride is introduced into the composition prepared in fresh water. When preparing the composition on mineralized water, calcium chloride is introduced less, since the mineralized water already contains calcium and chlorine ions.

In laboratory conditions, the compositions are prepared as follows: 1 g of guar polysaccharide (1 wt.%), 0.05 g of magnesium oxide (0.05 wt.%) Are dissolved in 86.35 g (86.89 wt.%) Of fresh water pour 0.6 g of a 10% solution of chromium acetate (AX - 0.06 wt.%) and inject 12 g (12 wt.%) of calcium chloride, which corresponds to a concentration of 138 g / l, all mix for 15 min (in the table composition No. 11). Then, the prepared composition is put in the oven with a temperature of 120 ° C and the system is monitored. After 25 minutes, the polysaccharide gel was completely crosslinked, and it lost fluidity. The composition is left under the influence of temperature for another 8 hours; no visible changes have occurred with it during this time. Other compositions are prepared in a similar manner with a different ratio of components on fresh or mineralized water with a density of d = 1.120 g / cm ³ , which can withstand temperatures of 120-150 ° C. The research results are shown in the table.

As can be seen from the table, when the concentration of the polysaccharide thickener (guar) is less than 0.8 wt.%, A loose gel is formed, which is not able to effectively limit the flow of water into the high-temperature well and plug it.

The compositions of the polysaccharide gel with a concentration of polysaccharide thickener above 1.2 wt.%, Chromium acetate above 0.1 wt.%, Magnesium oxide above 0.08 wt.% And calcium chloride above 12.5 wt.%, Water - the rest leads to uneconomical consumption of reagents and with such a concentration of polysaccharide thickener there are difficulties with the injection due to the high viscosity of the polysaccharide gel.

High-temperature wells are muffled during repair work, therefore, the proposed composition does not contain a bactericide that protects the polysaccharide gel from destruction. Due to this, it is able to spontaneously collapse after the time of repair work, and the flow of fluid into the high-temperature well is restored. But if rapid restoration of fluid flow into the well after killing is required, it is recommended to use inhibited hydrochloric acid to destroy the polysaccharide gel. The ability of the composition to block the flow of fluid was evaluated by filtering polysaccharide gels obtained by cross-linking the components of the composition through a Schott filter using a Buchi vacuum pump. The obtained polysaccharide gel is placed on the filter, then water is added and the pump is connected, and it is observed whether water is filtered or not filtered through the obtained gel. According to the lack of water filtration through a polysaccharide gel, it is concluded that this composition is suitable for killing high-temperature wells and limiting water inflows into high-temperature wells.

The table also shows the results of a study of the compositions of the prototype. Under the influence of high temperatures, these compositions become cloudy, since the nonionic surfactants contained in them are destroyed. The gel formed as a result of crosslinking has a weak structure due to the low polysaccharide concentration and therefore is not effective as a killing liquid for high-temperature wells and in limiting the flow of water into high-temperature wells.

To prepare a polysaccharide gel in the field, use the KUDR-8 aggregate. Mineralized water with a density of 1120 kg / m ³ is supplied to the mixing tank KUDR-8. To obtain 1 ton of solution in 928 kg of water, 10 kg of guar, 0.5 kg of magnesium oxide, 1.2 kg of a 50% solution of chromium acetate and 60 kg of calcium chloride are poured with constant stirring. The resulting composition has the following ratio of components in wt.%: Guar - 1, magnesium oxide - 0.05, chromium acetate - 0.06, calcium chloride - 6 (or 72 g / l), water - 92.89. The composition is mixed for 15-20 minutes and pumped into a high-temperature well to kill it. When injected into the high-temperature well of the proposed composition, the polysaccharide thickener in the presence of other components under the influence of high temperatures turns into a polysaccharide gel that can plug the formation, stop the flow of fluid and shut off the well for repair work, or limit water inflow during waterproofing operations.

The proposed composition of the polysaccharide gel for killing high-temperature wells allows killing of high-temperature wells developing high-temperature formations, or on which steam and thermal treatment is performed.

Claims (1)

The composition of the polysaccharide gel for killing high-temperature wells, containing fresh or mineralized water, a polysaccharide thickener, a crosslinker - chromium acetate with magnesium oxide, characterized in that the composition additionally contains calcium chloride introduced after the remaining components in the amount of 112-145 g per 1 liter of fresh water or 47-73 g per 1 liter of mineralized water with a density of 1.12 g / cm ³ , with the following ratio of components, wt.%:
polysaccharide thickener 0.8-1.2 crosslinker - chromium acetate 0.05-0.1 crosslinker - magnesium oxide 0.04-0.08 calcium chloride 10-12.5 fresh water rest polysaccharide thickener 0.8-1.2 crosslinker - chromium acetate 0.05-0.1 crosslinker - magnesium oxide 0.04-0.08 calcium chloride 4-6 mineralized water with a density of 1.12 g / cm ³ rest