RU2653203C2 - Side and bottom water layer thermal recovery method allowing electrically heating oil deposit in horizontal well - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: group of inventions relates to a method and an apparatus for developing high viscosity oil deposits with edge and bottom water, as well as oil deposits with a high pour point in the oil industry. Method for thermal recovery of formation oil in horizontal wells by means of electric heating of the formation, in which an electric heater is located, including in horizontal wells. Method comprises electrically heating a formation and raising formation temperature until formation oil is transferred to a mobile state. Partial heating of the oil formation is carried out at the same time. Formation comprises edge water and bottom water. Multiple horizontal wells are drilled in said formation.

EFFECT: technical result is high efficiency of oil recovery by heating the deposit to a high temperature, and also avoiding overheating of the electric heater and oil formation.

12 cl, 1 dwg

Description

This method is suitable for the development of deposits of high viscosity oil with contour and bottom water, as well as oil deposits with a high pour point in the oil industry, it is specifically aimed at the development of deposits of high viscosity oil or with a high paraffin content, low efficiency of paracyclic processing or oil displacement by injection of steam , a short exposure time of a stable flow rate, a high drop coefficient and a low degree of selection.

Paracyclic treatment, oil displacement by injection of steam and hot water, in-situ combustion, etc. - all of them relate to an effective technical method for the thermal development of an oil deposit, with a constant deepening of development. In the production process, more and more questions come to light, especially for deposits in the reservoir with medium-large and very large depths (occurrence depths 600 ~ 2300 m), where difficulties in their production are most acute:

1) due to transportation over long distances in the process of paracyclic processing, oil displacement by injection of steam and hot water, a lot of heat is lost, which leads to low thermal efficiency, high water cut in production wells, low oil production rate, high drop coefficient, in the end has a negative impact on the final degree of selection of deposits;

2) despite the fact that in-situ combustion has a positive result during trial operation in some simple blocks of high-viscosity oil and it can satisfy the need for industrial production, this method is not suitable for most deposits of special heavy oil. In addition, this method is a highly destructive development and can be compared with “draining the pond to get all the fish”, “slaughter the chicken to get a golden egg”, because in case of violation of the deposit, in the future it will not be possible to apply advanced thermal mining method. Therefore, we can say that this method is hopeless;

3) at present, oil production by electric heating is limited by barrel heating, the goal is to increase the ability of oil and gas production in production wells, as well as to reduce the viscosity of oil and reduce the phenomenon of waxing;

4) the method of thermal production, used in horizontal wells for electric heating of oil shale with hydraulic fracturing in place, is difficult to implement in heavy oil deposits due to the high cost and severe environmental pollution;

5) at the moment, the method of thermal production is a method of partial heating of an oil reservoir. As a result, the oil reservoir is heated unevenly, the duration of heat storage is short, the efficiency is low, and the saturation of the residual oil is also low. Residual oil is mainly concentrated in an area not covered by heat and in an area with low thermal efficiency.

Disclosure of invention

In this invention, centralized heating is disclosed. To warm one person in the cold, it is enough to put on warm clothes, the family uses the room for heating, and the centralization of heating is an ideal way of heating for a common building. Of the above three types, centralization of heating is the most economical, most efficient and most convenient way. In the process of thermal production of a deposit, one can compare the paracyclic treatment of one well with the heating of one person, the paracyclic treatment of many wells with the heating of the family using the room. If we consider the total oil reservoir as one unit and centralize the heating, we can generally increase the reservoir temperature, then it will be easier to solve the issue of thermal production in a single well.

"Immersion heater" is a common electric heater in life, it is designed to boil water, heat milk, brew coffee, etc. In this case, a very simple resistor is used (almost only making it water resistant), and just need to be put into a vessel. The immersion heater is not only able to save time, water, electricity and power, but also has a low cost, high convenience and high efficiency. For oil deposits with contour and bottom water, natural water allows for the electrical heating of the water reservoir. The advantage of this method is the economy of environmental friendliness and convenient operation, at the same time, the method has a high thermal efficiency, its heat energy can fully satisfy the demand for production.

“A way to cook buns on a wire rack in a double boiler” is a typical example for obtaining thermal efficiency with heating the bottom water in the home, you just need to continue heating the bottom water, you can steam several grates, the pressure and temperature in the evaporator can be released after the rolls are delivered. With the heating of the bottom and contour water, heat is gradually transferred upward over the whole oil reservoir, and the gradual accumulated pressure of the oil reservoir (the reservoir and fluid expands in heat, the dissolved gas releases pressure) and the elevated temperature can be effectively released with oil production. Simultaneously with controlling the heating time and temperature, the scale of increasing the temperature and pressure of the deposit can be controlled; this operation is simple and easy. In the case when the temperature of the contour and bottom water is in the range of 80 ° C ~ 100 ° C, the reservoir oil is in a mobile position, then a thermal method of oil production can be carried out.

The phenomenon of gravitational differentiation of cold and warm water. Under the influence of solar radiation, the temperature of the surface layer of the sea is high, and the temperature gradually drops from top to bottom. Not taking into account the influence of the ocean currents, cold and warm waters are characterized by the phenomenon of gravitational differentiation. For them there is no pumping up and down, and heat loss is expressed only by the transfer of heat between warm and cold water. Thus, if we continue the electric heating of formation water near the oil reservoir in the upper part of the formation water, then the temperature of the total reservoir will be effectively increased.

Feasibility Study

An oil reservoir with contour and bottom water has been adopted as a single oil-gas-water system, good reservoir connectivity, a favorable condition for closing the reservoir, high initial temperature of reservoir oil and mobile oil are prerequisites for oil and gas migration and formation of deposits, besides within certain temperature ranges, the phase transformation of reservoir oil is reversible. The pores through which oil and gas can pass are called an effective channel. Heat transfer in collectors is faster than in peripheral mudstones. Heat can constantly be transferred from top to bottom, and peripheral mudstones are able to retain this heat, so you can "centralize the heating" of the common oil reservoir.

According to the nature of the distribution of oil-gas-water, the oil reservoir is divided into 10 types:

1) a massive oil field with bottom water,

2) massive layered oil reservoir with bottom water,

3) massive oil reservoir with contour, plantar and upper water,

4) a layered oil reservoir with contour water,

5) a massive oil and gas reservoir with a gas cap (bottom water),

6) a massive oil and gas reservoir with a gas cap and bottom water,

7) a layered oil and gas reservoir with a gas cap and contour water,

8) a layered oil and gas reservoir with a gas cap,

9) a clean oil reservoir,

10) clean gas reservoir.

In addition to pure oil, gas and layered oil and gas deposits with a gas cap, in most oil and gas deposits contour and bottom water are developed and there are sufficient reservoir water resources, which provides sufficient maternal support for electric heating of the reservoir with contour and bottom water in horizontal wells;

In the case where the geothermal gradient is 2.5 ~ 4.5 ° C / 100 m, the temperature of the formation in the medium-large and very large depths is in the range of 35 ~ 103.5 ° C or even more, the temperature of electric heating of the formation water is 80 ~ 150 ° C when moving oil, temperature difference is 23.5 ~ 47.5 ° C. The deeper the formation water, the less electricity is required. The greater the power of the electric heater, the faster the temperature of the water rises. On the other hand, you can use many electric heaters for simultaneous heating, which allows you to quickly increase the reservoir temperature.

With respect to the closed type oil reservoir, under the condition of heating in general, the temperature and pressure increase inside the reservoir are similar to the pressure cooker principle: at high pressure, the boiling temperature of formation water is above 100, and at a reservoir pressure of 3 ~ 20 MPa, the boiling temperature of water is 132.9 ~ 211.4 ° C, the higher the pressure, the higher the boiling point of water. When the temperature is lower than the boiling point, it is possible to ensure that the temperature of the reservoir rises to the state of oil movement. Therefore, if the formation water is continuously heated at high temperature and high pressure, it is good to observe temperature and pressure, combine the features of pressure relief and lowering the temperature in production wells, and control the scale of the increase in temperature and pressure of formation water.

Currently, technologies for heating pipelines with an electric satellite with a surface effect and technologies for electrically heating the trunk have been developed. Within such technologies, the temperature is well controlled and the material is resistant to high temperature. All these factors allow transporting electricity over long distances and heating production wells. At the same time, the problem of conductor heat dissipation can be solved.

The "immersed heat" is immersed in the liquid, its heat is quickly released through the liquid, so the liquid quickly heats up, and the electrothermal coil does not burn out. This heating method is safe, environmentally friendly, economical and efficient.

The descaling technology from the electromagnet of the electric heater is capable of cleaning the scale formed during electric heating. Her education is associated with the presence of hard water. A magnet can soften water. This method is environmentally friendly, economical, convenient and safe. The magnet of the ferrite material mainly consists of BaFe12019 and SrFe12019, it is made by ceramic technology, is characterized by good temperature resistance, low cost, wide application, it is a permanent magnet.

The implementation of the invention

1. At a place where the distance between which and the oil reservoir in the upper part of the reservoir with contour and bottom water is 20 ~ 30 m, drill a horizontal well, put an electric heater in horizontal wells to electrically heat the water reservoir.

2. The design of the electric heater in horizontal wells is shown in FIG. 1, the filter in a horizontal well includes upper and lower parts; in the upper part, put spring-shaped electric heaters, which are connected in series together. In place of the horizontal diameter of the filter, put heat insulation pads, seal the bottom of the filter and form a middle space for heat insulation.

3. Inside the upper part of the filter hang several station magnetic rods of ferrite material to prevent scale formation.

4. With partial heating of the oil reservoir, water is heated with immersion of the electric heater, and a waterproof electric heater is used to run into the oil reservoir.

The beneficial effect of the invention

It is safe, environmentally friendly, economical and highly efficient to develop a highly viscous oil deposit and an oil deposit in formations with a high pour point in medium to very large depths, to increase the development effect of such deposits and the final oil recovery factor.

Description of drawings

Other distinguishing features and advantages of this invention clearly follow from the description below for illustration, and are not restrictive, with reference to the accompanying figure, in which figure 1 schematically depicts an electric heater for thermal production of oil in horizontal wells by electric heating of the formation with contour and bottom water. On it is indicated:

1) slotted filter;

2) a permanent magnetic core of ferrite material;

3) spring-type screw electric heater;

4) heat-insulating gasket;

5) the filter sealing plate, inside there is an empty space, it together with the heat-insulating gasket prevents heat transfer down.

Best Mode for Carrying Out the Invention

1. In a place where the distance between which and the oil reservoir in the upper part of the reservoir water with contour and bottom water is 20 ~ 30 m, drill a horizontal well. In this way, sufficient heat can be stored to raise the temperature of the formation as a whole and to prevent boiling of formation water too early. Too much pressure leads to fracturing.

2. The number, length and direction of horizontal wells are determined by the volume of the aquafer and oil reservoir, open hole completion with filling with gravel.

3. If you drill downhill, lateral cutting of horizontal wells is carried out using production wells, and the conductor can be considered as an electric heater of the barrel or NS to achieve the goal of heat transfer and heating. If horizontal wells are drilled separately, a heat-satellite electric heating device with a surface effect should be installed on the conductor, first of all, a material resistant to high temperature should be selected to prevent overheating of the conductor inside the barrel.

Electric heater for thermal production of reservoir oil in horizontal wells by electric heating of the formation with contour and bottom water. It includes several magnetic bodies made of ferrite material located in the upper part of the inside of the slit filter, waterproof and screw spring heating rods located in the middle, which are connected in series together, and thermal insulation gaskets are located in place of the horizontal diameter of the slit filter the lower part of the filter and allowing in combination with heat-insulating gaskets to isolate heat and warning s heat transfer down.

An example embodiment of the invention

In the upper part of the formation with contour and bottom water of the oil reservoir near the oil reservoir, drill a horizontal well, put an electric heater in the wells to heat the contour and bottom water of the reservoir and increase the temperature of the reservoir as a whole, conduct highly efficient oil production due to the following effects: heat transfer effect, displacement effect oil with steam injection during the overflow of gas dissolved in water, the expansion pressure of the formation water and the oil reservoir, the effect of reducing viscosity / paraffin release oil at high temperature.

Industrial applicability

This method is suitable for the development of viscous oil deposits and oil deposits with a high pour point with contour and plantar water, especially for hard-to-recover deposits of the above types in the reservoir with medium-small and very large depths.

Claims (12)

1. The method of thermal production of reservoir oil in horizontal wells by electrically heating the reservoir, in which the electric heater is located, including in horizontal wells, producing electrical heating of the reservoir and raising the temperature of the reservoir until the reservoir oil is in a mobile state, while partially heating the reservoir, characterized in that the formation contains contour and bottom water, while in the specified formation several horizontal wells are drilled to increase the efficiency of customs of oil. 2. The method according to p. 1, characterized in that when partially heating the oil reservoir, the principle of centralization of heat supply is used, in which a common oil reservoir is considered as one unit and centralization of heat supply is carried out in order to increase the temperature of the general oil reservoir. 3. The method according to p. 1, characterized in that during partial heating of the oil reservoir, water is heated with immersion of the electric heater, and a waterproof electric heater is used to run into the oil reservoir. 4. The method according to p. 1, characterized in that during partial heating of the oil reservoir, the time and temperature of the electric heating are controlled, and the scale of increasing the temperature and pressure in the oil reservoir is controlled by the production method. 5. The method according to p. 1, characterized in that during partial heating of the oil reservoir produce gravitational differentiation of cold and warm water. 6. The method according to p. 1, characterized in that when partially heating the oil reservoir, an oil reservoir with contour and bottom water is used as a single oil-gas-water system, which leads to the fact that it has good connectivity collectors, a favorable condition for closing the tire and its heat transfer in the collectors is better than in peripheral mudstones, the heat is constantly transferred from top to bottom and peripheral mudstones are able to retain these heats, then it is possible to carry out centralized heating tyanoy deposits. 7. The method according to p. 1, characterized in that for partial heating of the oil reservoir use developed in most oil and gas deposits developed contour and bottom water, the availability of sufficient reservoir water resources as sufficient maternal support for the electrical heating of the oil reservoir with contour and bottom water, and as a high-quality cooler for an electric heater. 8. The method according to p. 1, characterized in that during partial heating of the oil reservoir, a gradient indication of the reservoir temperature is used, at which the deeper the occurrence of the reservoir, the higher the temperature of the earth, the less energy is required and the more energy-efficient is the formation oil with electric heating of the reservoir with a contour and bottom water in the deposits. 9. The method according to p. 1, characterized in that when the oil is partially heated, the ratio between the temperature and the pressure of the produced water is used, at the reservoir pressure of 3 ~ 20 MPa, the boiling point of water is 132.9 ~ 211.4 ° C, the higher the pressure, the higher the temperature boiling point, under the boiling point, the temperature of the reservoir rises so that the oil flows (temperature condition of oil movement is 80 ~ 150 ° C). 10. The method according to p. 1, characterized in that when the partial heating of the oil reservoir using technology to remove scale from the electric heater, in which it is possible to clean the scale formed in the process of electric heating. 11. The method according to p. 1, characterized in that when the oil reservoir is partially heated, oil is produced using an increase in temperature and a decrease in viscosity / release of oil paraffin, reservoir expansion pressure, the effect of water flooding with gas injection during overflow of gas dissolved in water. 12. Electric heater for thermal production of reservoir oil in horizontal wells by electric heating of the formation with contour and bottom water, characterized in that it includes several magnetic bodies made of ferrite material located in the upper part of the inside of the slit filter, waterproof and screw located in the middle spring-shaped electric heating rods that are connected in series together, with t located at the horizontal diameter of the slot filter heat-insulating gaskets, sealing the empty space of the lower part of the filter and allowing, in combination with heat-insulating gaskets, to isolate heat and prevent heat transfer down.

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