RU2131972C1 - Acid surfactant composition for treatment of bottom-hole zone - Google Patents

Abstract

FIELD: oil-producing industry. SUBSTANCE: acid surfactant composition contains, %: inhibited hydrochloric acid (in terms of HCl), 5.0-23.0; hydrofluoric acid, 2.0-10.0; nonionic surfactant, 1.0-5.0; solvent-resin-paraffin deposits, 5.0-25.0; water, the balance. Solvent is used in the form of fraction of aromatic hydrocarbons, for instance, toluene-xylol fraction or mixture of halogen derivative solvents. EFFECT: higher solving and detergency properties of composition with respect to asphalt-resin-paraffin and clay deposits. 2 cl, 1 tbl

Description

 The invention relates to the oil industry and can be used for processing the bottom-hole zone.

 A known composition for treating the bottomhole formation zone, including a surfactant, for example, petroleum or synthetic sulfonate 0.25 - 3.0% and hydrochloric acid with a concentration of 5-24% (ed. St. USSR N 1161699, class E 21 B 43 / 22, 1984).

 The disadvantage of this composition is the low washing properties of asphalt-resinous and paraffin deposits in the near-well zone of the well and the insufficiently effective reduction in the permeability of highly permeable layers of heterogeneous formations.

 The closest and proposed invention in technical essence and the achieved result is a composition for processing the bottom-hole zone (ed. St. USSR N 1571224, class E 21 B 43/27, 1988).

 The disadvantage of this method is the lack of efficiency in the processing of muddied bottom-hole zone of highly watered wells.

 The aim of the invention is to increase the efficiency of processing the bottom-hole zone of highly flooded wells due to the high washing and dissolving ability of the composition used.

This goal is achieved by the fact that, in contrast to the known compositions in the composition used, including a mixture of inhibited hydrochloric and hydrofluoric acids, nonionic surfactants and water, additionally, as an ASPO solvent (asphalt-resinous and paraffin deposits) is contained in emulsified the form of an aromatic or halocarbon hydrocarbon in the following ratio of components, wt.%:
Inhibited hydrochloric acid (in terms of HCl) - 5.0 - 23.0
Hydrofluoric acid - 2.0 - 10.0
Nonionic surfactant 1.0 - 5.0
AFS solvent - 5.0 - 25.0
Water - Else
Hydrochloric acid (TU 4814-82) and hydrofluoric acid (TU-1426-84) are used to prepare this acidic surfactant composition, and ethoxylated alkyl phenol, for example, Neonol AF 9-12, is used as a nonionic surfactant, and as ASPO solvent - a fraction of aromatic hydrocarbons or an APC product manufactured by Khimprom JSC (TU 2122-199-05-76-34-68-94), which is a mixture of halocarbon compounds. This composition is prepared as follows:
- at the beginning, the calculated amount of nonionic surfactant is dissolved in an aromatic or haloform solvent or a mixture of these solvents, then the resulting surfactant solution is mixed with water, into which the calculated amounts of hydrochloric acid and hydrogen fluoride are added.

 Unlike the known surfactant-acid compositions for treating the near-wellbore zone, this composition, which is a microemulsion system that is well filtered into the porous medium, not only cleans the bottom-hole zone of the formation from salt deposits and residues of drilling fluids, but also peptizes and dissolves paraffin-resinous and asphaltene deposits. In addition, this composition in reservoir conditions, after its neutralization, retains high oil displacing properties.

 For a comparative assessment of the effectiveness of the compounds, the compositions are prepared according to the invention and prototype (AC N 1571224).

 The proposed composition is prepared as described above, and the composition of the prototype is prepared by sequential dissolution of neonol and sulfonol in dilute hydrochloric acid in amounts provided by the claims.

 A part of the prepared acidic surfactant compositions was analyzed for their dissolving ability in relation to an artificially prepared mixture consisting of calcium carbonate (50 wt.%), Clay (20 wt.%) And paraffin wax (30 wt.%).

The solvent capacity (Pc) of the compounds was evaluated by the intensity of the chemical reaction, their interaction with calcium carbonate and the decrease in the weight of the residue of the dissolved mixture after the end of the chemical reaction according to the formula (1):
Pc = [(G _o = G _k ) • 100] / G _o ,%,
where G _o - sample of the processed mixture, g;
G _k - insoluble residue, after processing the mixture,

The oil-displacing ability of comparable surfactant-acid compositions was analyzed after neutralizing them with calcium carbonate in a bulk model of the formation, 50 cm long and 1.1 cm in diameter, represented by quartz sand having 36% porosity and water permeability of 3.8 μm ² . This reservoir model was initially saturated with formation water with a total salinity of 12.7%. After that, the water was displaced with oil with a viscosity of 9.2 cst at 20 ^o C. Then the oil was displaced with the same formation water to the maximum water cut of the outgoing fluid samples from the core. At the same time, the final oil displacement reached 65–70%.

Cores prepared in this way were examined for the efficiency of residual oil washing with comparable neutral compositions when they injected a rim in the amount of one pore volume and then displaced the rim with formation water until the oil was removed from the core. The experiments are carried out at room (20 = 5 ^o C) temperature.

 The oil-displacing ability of the compared compositions was estimated by the amount of oil extracted additionally from the core, expressed as the displacement coefficient -Nk in volume percent of the residual oil after its flooding.

 The test results of the developed composition and known composition, taken as a prototype, are presented in the table (see table at the end of the description).

 From the data presented in the table it follows that the proposed composition, in contrast to the prototype, has a higher dissolving ability not only in relation to the deposition of calcium carbonate salts, but with equal values of non-ionic surfactant content (comparison of compositions 2 and 5), has 1.5 times better dissolving ability with respect to paraffin, while more than times improving the oil washing properties of composition 2 compared with composition 5.

 With a higher content of HCl (23 wt.%), The proposed composition (composition 3) in relation to the prototype (composition 6) has distinct dissolving properties in relation to clay particles (due to the presence of HF in the composition) and 100% oil washing properties (due to the increased the content in the composition of nonionic surfactants (5 wt.%) and an effective solvent APC (25 wt.%).

 The compared prototype (composition 6), even with a total content of IPAS and nonionic surfactants in the amount of 5.3 wt.% And HCl in the amount of 23 wt.%, Provides the dissolution of the artificially prepared mixture by only 65 wt.%. This indicates that the solubility of this composition in relation to paraffin and clay components (assuming 100% dissolution of calcium carbonate) does not exceed 15% of their mass content.

Claims (1)

1. An acidic surface-active composition for treating the bottom-hole zone of wells, including a mixture of inhibited hydrochloric and hydrofluoric acids, nonionic surfactant and water, characterized in that the composition additionally in emulsified form contains an effective paraffin and asphaltene-paraffin solvent deposits) in the following ratio of components, wt.%:
Inhibited hydrochloric acid (in terms of HCl) - 5.0 - 23.0
Hydrofluoric acid - 2.0 - 10.0
Nonionic surfactant 1.0 - 5.0
AFS solvent - 5.0 - 25.0
Water - Else
2. The composition according to p. 1, characterized in that the aromatic hydrocarbon fraction (for example, toluene-xylene fraction) or a mixture of halocarbon solvents (for example, the agro-industrial complex product manufactured by Khimprom JSC according to TU 2122-199-05-76 is used as an ASPO solvent). -34-68-94).

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