EA032352B1 - Method of electrochemical liquid preparation, injected in the oil and gas-bearing formation, in order to change the sorption capacity of the header - Google Patents

Abstract

Change of electrochemical properties of the liquid injected into the oil header due to the electrochemical preparation of the liquid circulating in the oil preparation system, in order to change the sorption capacity of the oil and gas header, allowing to change the oil and gas production capacity thereof changing the oil recovery factor and to minimize any type of reagent interference in the relic component thereof.

Description

DESCRIPTION OF THE INVENTION TO THE EURASIAN PATENT (45) Date of publication and grant of the patent (51) Ιηΐ. C1. S02G1 / 46 (2006.01)

2019.05.31 ^{Е21В 43/22} ( ^{2006 01} ) (21) Application Number

201600253 (22) Application Date

2016.04.12 (54) METHOD OF ELECTROCHEMICAL PREPARATION OF WATER PUMPED INTO OIL AND GAS-BASED PLASTIC FOR CHANGING THE SORPTION CAPACITY OF THE COLLECTOR (31) KEG2015113838 (32) 2015.04.14 (33) ki (43) 2016.10 -18 T6 (56) A-1784214 Ki-C1-2087692

Ki-C2-2303692 (71) (72) (73) Applicant, inventor and patent holder:

MALYKHIN IGOR

ALEKSANDROVICH; SOVIKA SERGEY MARTSIANOVICH; PELIPENKO OLEG

Vladimirovich (s) (74) Representative:

Malykhin I.A. (Κϋ)

032 352 B1

(57) The invention provides a change in the electrochemical properties of the water injected into the oil reservoir, due to the electrochemical preparation of the liquid wrapped in the oil preparation system in order to change the sorption capacity of the oil and gas reservoir and to change its oil and gas recovery with a change in the oil recovery coefficient and minimize any type of reagent intervention in its relict component.

032 352 Β1

Description of the invention

The method can be implemented in the oil and gas industry to change the sorption capacity of the oil and gas reservoir, which will change its oil and gas recovery with a change in the oil recovery coefficient and minimize any type of reagent intervention in its relict component.

Known methods for increasing oil recovery, such as thermal, gas, chemical, hydrodynamic, physical, as well as combined. All of the above methods are characterized by various kinds of shortcomings: dubious technical efficiency at fairly high economic costs, time-limited technical effect, complexity of technical implementation, increased environmental load, a large number of unpredictable or generally unpredictable geochemical and hydrodynamic consequences associated with interference with the relict component of the field .

The purpose of the method is to increase the efficiency of oil and gas field development with a decrease or absence of side effects associated with the implementation of currently known methods of increasing oil recovery, simplifying technical implementation, the ability to control the process, reducing environmental load and minimizing interference with the relict component of the field.

All methods of increasing oil recovery associated with the use of surfactants, based on phase energy interactions and determining the stability / instability of the oil / gas / water / solid phase system (containing rock), are an absolute analogue of the proposed method from the point of view of the electrochemical approach to achieve the stated objective of the invention .

Given that the use of surfactants to achieve the stated goal is not chemical (does not participate in chemical reactions), but an electrochemical sense, the proposed method, based on changing the electrochemical properties of the prepared liquid, not only does not contradict the technical essence disclosed in the invention, being not indirect (application - surfactant), but is a direct way to change its energy properties (Colloid chemistry // Schukin E.D., Pertsov A.V., Amelina E.A., 2004). Indeed, in spite of the fact that the stated purpose of using the reagent base (application of surfactants) is only to change the electrochemical (and, as a consequence, hydrodynamic) properties of the reservoir, in reality, due to the complex chemical composition, the host rock-gas-oil fraction (for example , for oil alone, ~ 20,000 different chemical compounds have been established), a number of irreversible chemical reactions are initiated both of an inorganic nature and of organic synthesis reactions (taking into account the presence of component of any oil and gas bearing layer of organometallic and other compounds that are natural catalysts), which severely limits the possibility of using various types of reagents from the point of view of forecasting the consequences of their action.

The task and technical result of changing the sorption capacity of the oil and gas reservoir, which allows changing its oil and gas recovery with a change in the oil recovery coefficient and minimizing any type of reagent intervention in its relict component, is achieved by changing the electrochemical properties of the water pumped into the oil reservoir due to the electrochemical preparation of the liquid wrapped in the oil preparation system oil preparation unit.

This is achieved by using electrode pairs with an area ratio of not equal to 1, placed in different buildings made of insulating materials, by creating a potential difference on them due to the polarization of the electrodes pumped through them with liquid, connecting in any order to all or one of them an electrical load corresponding to polarizing ability, pumped through the electrode pair of liquid and allowing to maintain the potential induced on the electrode pair not equal to 0 V, and in Taking into account the drop in the potential difference, the voltage is applied to the electrode pair or to the electrode pairs at different intervals from the DC power source with the electrical load disconnected for the duration of the voltage supply.

The implementation of the method is achieved by using both an open and a closed, pressure, flow system, which is built into the technological line of gas and oil and gas treatment, characterized by low energy consumption (~ 0-0.22 W / m ³ pumped liquid).

The proposed method, based on phase energy interactions that determine the stability / instability of the oil / gas / water / solid phase system (containing rock) and are fundamental from the point of view of the electrochemical approach to achieve the stated objective of the invention, is guaranteed to lead to a change in the sorption capacity of the reservoir with a change in it oil recovery.

Indeed, when a homogenized heterogeneous free-dispersed system passes through a pair of electrodes from the same material (excluding the possibility of a potential difference associated with the location of conductors of the first kind at different places in the electrochemical series of voltages), but having a different area, the polarization energy of each of the electrodes

- 1,032352 will be different, and the desire of the heterogeneous system to reduce surface energy causes a negative orientation of polar molecules, ions, electrons in the surface layer, as a result of which the contacting phases oil / gas / water / solid phase acquire charges of the opposite sign, equal in magnitude. In this case, excess surface energy is converted into electrical energy (Electrochemistry // Damaskin BB, Petri OA, Tsirlina GA, 2006)

The data obtained from the pilot tests of the method of electrochemical preparation of water injected into the oil and gas reservoir in order to change the sorption capacity of the reservoir at one of the oil fields are presented below.

Oil emulsion, related to the high emulsion, sour type, with a bound water content of ~ 33%, with a molar content (%): resins - 18.78, asphaltenes - 4.98, paraffins - 6.24; water: ρ = 1.05 g / cm ³ , M = 70-80 g / l, pH 7-9, the composition of the C1 Να Ca type brine entering the oil treatment unit (UPN) with passage through the installed electrochemical preparation system, followed by separation into fractions at the stages of preliminary water discharge (UPSV). Water from the UPSW enters the cluster pump station (SPS) and then to maintain reservoir pressure (RPM) into the reservoir.

From the start of the launch until the shutdown of the electrochemical preparation system, the following results were obtained: at the start of the launch, the volume of fluid coming from the reservoir was 1465 m ³ / day, and the amount of oil was 1026 m ³ / day. At the time of shutdown, the amount of produced fluid is 1900 m ³ / day, and the amount of oil is 1300 m ³ / day. The increase in oil production amounted to ~ 20%. Moreover, the result was achieved against the background of a multiple reduction in the dosage used in the framework of the oil and water treatment of the UPN, reagent base (a sharp decrease in the amount of reagent returned with commercial water to the reservoir).

That is, the result of the use of electrochemical treatment of water injected into the oil reservoir resulted in an increase in oil production, which has a temporally increasing character, without changing the general hydrodynamic scheme of the formation water flooding. Moreover, the limit of the increase in oil production in the framework of this operational scheme of the field was not reached, due to the limiting capacitive capabilities of the oil-processing equipment UPN and the planned shutdown of the scheme for the electrochemical preparation of the liquid.

A diagram explaining the method is shown in the drawing.

The fluid comes from the reservoir 15, through production wells 16 to the oil and gas preparation workshop (CPG) 17, from where it enters the input of the oil treatment plant (UPN) 18, and the electrochemical preparation of the liquid is carried out at UPN 19.

Electrochemical preparation of the liquid includes a pair of electrodes 3, 4 located in the housing 2 with input 1 and output 5, and a pair of electrodes 8, 9 placed in the housing 7 with input 6 and output 10.

Then, the water from the outlet of the UPN 12 enters the cluster pump station (SPS) 13, then to maintain reservoir pressure (PPD) 14 into the reservoir 15.

The method of electrochemical preparation of water injected into the oil reservoir by electrochemical preparation of the liquid wrapped in the oil preparation system, in order to change the sorption capacity of the oil and gas reservoir, allows you to change the sorption capacity of the oil and gas reservoir, which will change its oil and gas recovery with a change in the oil recovery coefficient and minimize any type of reagent intervention in relict component of the oil and gas bearing formation.

Claims (2)

CLAIM A method for the electrochemical preparation of water pumped into an oil and gas bearing reservoir to change the sorption capacity of the reservoir, including the use of electrode pairs with an area ratio of not equal to 1, placed in different bodies of insulating materials, characterized in that they create a potential difference on the electrode pairs due to the polarization of the electrodes pumped through them with liquid, with connection in any sequence to all or to one of them an electrical load corresponding to a polarizing of the pumped through the electrode pair of liquid and allowing to maintain the potential induced on the electrode pair not equal to 0 V, and in the event of a potential difference falling on the electrode pair or on the electrode pairs, voltage is supplied at different intervals from the DC power source with the electrical load switched off for a while voltage supply. - 2 032352 • e