SU739218A1 - Reagents for preventing growth of sulfate-reducing bacteria - Google Patents

Description

(54) REAGENT FOR THE PREVENTION OF GROWTH OF SULPHATIC RECONSTRUCTING BACTERIA

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The invention relates to the oil industry and can be used to prevent the growth of sulphate-reducing bacteria in waxy oil reservoirs, as well as in systems for the production, preparation and transport of oil,

A known method of preventing the growth of sulfate-reducing bacteria, which promotes the formation of hydrogen sulfide in a waxy oil reservoir, by adding acrolein 1 to the injected water.

The main disadvantage of this method is the low degree of inhibition of bacterial growth and the need to use elevated concentrations to fully: prevent the growth of sulfate reducing bacteria (UHB).

The aim of the present invention is to increase the degree of inhibition of sulfate-reducing bacteria.

This goal is achieved in that 4-methyl (5,6) -dihydro (2H) pyran is used as a reagent to prevent the growth of sulfate-reducing bacteria in a waxy petroleum reservoir.

The invention is carried out as follows.

Beforehand, the working solution is drawn into the tank, then it is metered into the water injected into the reservoir in the amount of 0.0005-0.1% of the mass

Injection technology is selected AND depending on the properties of the reservoir. It can be carried out continuously with the addition of 0.0005-0.01% reagent sludge periodically with the addition of a high concentration of 0.01-,:

15Efficiency of growth suppression

The SVB was determined by the known method ..4

 In the industrial water containing SSC, under sterile anaerobic conditions, the studied compounds were injected at appropriate concentrations and kept for 24 hours at a temperature of 32 ° C. Then, 1 ml of liquid was taken from these samples and injected into the bottle.

25 ki with postgate feeding medium. Vutyshochki thermostated for 15 days. Control samples were placed on the same time .f. ki bactericidal composition.

30 growth abatement

riy evaluated by the degree of suppression of sulfate reducing bacteria by the formula

with .

. -100%,

J-

where C and Cj are the hydrogen sulfide content in the control and test samples (mg / l), determined after 15 days from the start of the test,

Experiments were performed in triplicate on the cultures of sulfate reducing bacteria contained in the reservoir water of the oilfield,

The table presents the results of determining the degree of reduction of SSC for the studied compounds. For comparison, the results obtained under similar conditions with the addition of acrolein by a known method are also shown there.

  -. The data presented show that the proposed method provides a high degree of suppression of sulfate-reducing bacteria. At the same time, the reagent used is a cheap, affordable product having a wide industrial raw material base.

This method has the following main advantages:

high efficiency, since complete suppression of bacterial growth is provided at low concentrations of the added reagent, in the finished water;

The widening of the range of commercially available chemical products used to prevent the growth of bacteria. This circumstance is important, that microorganisms can adapt and require the periodic use of bactericides of various mechanisms;

prevention of hydrosulphuric and microbiological corrosion of oil field equipment, reducing the number of emergency breakouts of water and reducing economic costs; . .

increase in injectivity of squigkin, the possibility of enhanced oil recovery in the fields that entered the late stage of operation;

the ability to protect the environment, as it effectively prevents the growth of SSCs, poziolit, to reduce the contamination of oil fields and the production of hydrogen sulfide.

Claims (1)

Invention Formula The use of 4-metsh1 (5,6) -dihydro (2H) pyrana as a reagent to prevent the growth of sulfate-reducing bacteria in a waxy oil reservoir. . Sources of information taken into account in the examination 1, US Patent 2,987,475, cl, 252-855. published in 1961. 2, Methodology for assessing the protective effect of micro-inhibiting reagents. biological corrosion, VNIISPTneft, 5 Ufa, 1977,