SU929818A1 - Agent for suppressing growth of sulphate-reducing bacteria in flooded oil-bearing formation - Google Patents

Description

(54) REAGENT FOR GROWTH GROWTH

Sulphate-repulsive bacteria

IN OUTSTANDED OIL PLATE

one

The invention relates to the oil industry, in particular to the development of oil fields, and can be used to combat the development of sulfate reducing bacteria (SRB) in oil reservoirs during their water flooding.

It is known to use a solution of sulfuric acid injected into an oil reservoir in the course of water flooding as a reagent for controlling sulfate-reducing bacteria 1.

The disadvantage of using this reagent is the lack of effectiveness of combating SSC due to the formation of gypsum in the formation and reducing its permeability.

The purpose of the invention is to increase the effectiveness of the fight against SCB.

This goal is achieved in that an alkali solution is used as a reagent for inhibiting the growth of sulfate-reducing bacteria in a waxy petroleum reservoir.

The injection well, in the wellbore zone of which the SRB was developed and show active activity, is disconnected from the conduit and a solution of alkali, for example caustic soda, is pumped into the required volume and maintained for 2-4 hours. the bottomhole formation zone, whereby the formation of hydrogen sulfide is stopped there. After aging, the process water is again injected into the reservoir. At the contact of water with alkali, it is diluted and produces a large amount of heat sufficient to heat the treatment area to a temperature of about 70 ° C. It turns out that thermal effects are also added to the chemical attack on SCB. This leads to the fact that SIS cannot develop immunity to caustic soda solution.

Research and experimental testing of the method showed that the duration of the effect was from 7 to 9 months, depending on the concentration of caustic soda solution and the amount of BW in the bottomhole formation. The higher the concentration, the longer the treatment effect of the well.

For the implementation of the invention, 0.5-25 ° / o-soda solution of sodium hydroxide can be used. However, in order to successfully combat the development of SIS in wadded oil reservoirs, it is advisable to use an alkali solution with a concentration of 2.5-5%. The volume of alkali solution for processing depends on the radius of the area of development and the active activity of the SCB in the near-sea zone and is determined in each individual case by the formula.

V K-n-R-H-M,

where K - coefficient taking into account the loss of alkali solution during its injection into the bottomhole zone,, 2; R is the radius of the zone of development and activity of SRB, m;

H - power of the treated layer, m; M is the porosity of the reservoir,%

As shown by laboratory experiments, the holding time of the alkali solution in the treatment zone depends on its concentration. So, when the concentration of the alkali solution is more than 2.5%, 2 hours is enough for all living SSC cells to become extinct. This time is increased to 4 hours at a concentration of 0.5%.

The results of the study of changes in the permeability of sandstones using an alkali solution and sulfuric acid solution are shown in the table.

Claims (1)

Claim The use of an alkali solution as a reagent to inhibit the growth of sulfate-reducing bacteria in a flooded oil reservoir.