RU2342520C2 - Method of development of hydrocarbon deposits (versions) - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil and gas producing branches of industry and can be implemented at any stage of hydrocarbons production, both continuous production and cyclic one. The essence of the invention is as follows: according to the method the development is carried out by means of a producing well having a horizontal borehole in a producing horizon-collector; further a casing column is introduced from outside and cemented to the end of the horizontal borehole; the casing column is perforated in the zone of the horizontal borehole. According to the invention the well in the producing horizon-collector is used with either horizontal or pseudo-horizontal borehole, or pseudo-horizontal borehole being transformed into a horizontal borehole. To equalise depression in the producing horizon along the borehole of the well a pipe with a plug at its end and apertures on the wall of the end section is inserted inside the perforated casing column from a well head till a bottom hole not touching the cement plug at the end of the casing column. Additionally two versions of development are suggested considering features of design of a producing well.

EFFECT: increased efficiency due to adjustability of development, prevention of oil deposit breaking up and forming dead zones, and also upgraded efficiency of gas production from oil-gas deposits.

9 cl, 1 dwg

Description

The invention relates to the oil and gas industries and can be used at any stage of hydrocarbon production both in continuous production and in cyclic.

The prototype method of developing hydrocarbon deposits using a horizontal well (HS) production well in a reservoir — the reservoir has been known for more than 50 years and is generally more effective [1] than developing a vertical well (hydrocarbon) producing hydrocarbon deposits in a reservoir . This is mainly due to the longer length and, accordingly, the larger area of the opened reservoir, which is directly exposed to depression than the area of a perforated well with a vertical wellbore, which increases the flow of production into wells with a horizontal wellbore.

Over the entire history of the use of such wells, the arrangement of horizontal wellbores has not changed, and, accordingly, the method of developing deposits using wells with a horizontal well actually has permanent disadvantages. These shortcomings are visible from studies, the results of which are presented in [2]. These studies compare the flow rates of 68 production wells with a horizontal wellbore in the reservoir, operated from January 1993 to March 1994, with the production rates of closely located production wells with a vertical wellbore in the reservoir. This comparison showed that the oil production rate of 57 wells with a horizontal wellbore is 1.1–16.3 times greater than the production rate of vertical wells, while in 11 wells with a horizontal wellbore, the oil production rate was lower than the production rate of vertical-well wells. That is, it is obvious that there is a huge flow rate advantage for most wells with a horizontal wellbore and a wide range of variation of this advantage, and there is a significant statistical probability of even worse results than for wells with a vertical wellbore in the reservoir. These results indicate the actual uncontrolled production of wells with horizontal boreholes, which basically inevitably follows from their insufficient constructive arrangement.

The main disadvantages of the method with a horizontal wellbore occur due to the fact that the casing of a producing well with a horizontal wellbore is brought only to the beginning of the horizontal wellbore, and the horizontal well itself is an open channel in the reservoir, without a casing. Depression created through the end of the casing in such an open channel made in porous rock of the reservoir will always fall very quickly from the beginning of the horizontal wellbore (from the side of the end of the casing) along the horizontal well to its end. And so fast that it may turn out to be zero far to the end of the horizontal trunk. And this is natural for a porous reservoir, since, causing a flow of production, depression is consumed and consumed to a greater extent where its magnitude is greater, that is, at the end of the casing. And the higher the permeability of the reservoir, the sharper the depression decreases along the horizontal wellbore, that is, the productivity of the open horizontal wellbore a priori cannot be uniform along its length.

In addition, this unevenness is enhanced by the anisotropy of the permeability of the reservoir in any direction, as well as by the presence of cracks of various sizes and directions in the reservoirs. During intensive work of injection wells pumping oil-displacing fluid into the reservoir, even in the absence of cracks with time (and the production process lasts for decades) towards the lower end of the casing of the production well with a horizontal wellbore, extensive gaps are formed in the reservoir, injection fluid breaks through to it .

Moreover, due to the greatest value of the depression gradient in the reservoir near the end of the casing of the producing well with an open horizontal wellbore, both the process of crest formation of the bottom water and the funnel formation of the gas cap develop more unevenly along this well, which if any of them breaks into the producing the well reduces depression, which further increases the variation in the flow rates of such wells. You can also notice that the open channel of the horizontal trunk in the reservoir is, as it were, a tool combining its most permeable sections and cracks, that is, it not only does not interfere with their negative impact, but combines and strengthens their negative impact, creates uneven extraction of products from the reservoir and contributes to formation of stagnant zones.

Similar disadvantages are characteristic of the use of an injection well with an open horizontal wellbore in the reservoir, as well as for both purposes with an open pseudo-horizontal wellbore (ASG) in the reservoir, recommended in [3], in which the casing in the well is also brought only to the beginning of the pseudogorizontal well in collector.

An object of the invention is to increase economic efficiency, increase stability and ensure the manageability of the method of developing oil deposits using production and injection wells with horizontal and / or pseudo-horizontal boreholes in the reservoirs, preventing the formation of oil deposits and preventing the formation of stagnant zones of oil, as well as increasing the efficiency of gas production wells from oil and gas deposits.

This goal is achieved by a combination of improving several aspects of the production process in a known manner: by changing the arrangement of wells with a horizontal or pseudo-horizontal wellbore, as well as the modes and tactics of their operation.

First, casing is introduced into an open horizontal or pseudo-horizontal wellbore. This action is performed either immediately when the well is being drilled during the casing lowering, the diameter of the casing in this case being kept from the wellhead to the end of the well bottom, or when the well with a horizontal or pseudo-horizontal wellbore is already equipped with a cemented casing before the horizontal or pseudo-horizontal wellbore, then another casing with a smaller diameter is passed through the volume of the existing casing string and placed from the wellhead to the end of the bottom hole.

Finally, in the case when the transition from the exploitation of deposits with already equipped wells with a vertical wellbore to the exploitation of wells with a horizontal or pseudo-horizontal wellbore, for example, when redeveloping a well or at any time during development, a hole is drilled above the collector of the installed well casing with a vertical wellbore, and then a new direction of the well is drilled from it and a horizontal or pseudo-horizontal wellbore is created in the reservoir, after which it is drilled from the wellhead through the upper part oh casing is introduced to the end face in the horizontal or psevdogorizontalny wellbore casing of smaller diameter than the drilled and cemented the lower part of the sun.

Subsequent arrangement of the introduced casing in a horizontal or pseudo-horizontal wellbore is identical for all three cases considered. A casing string inserted into a horizontal or pseudo-horizontal wellbore is cemented from the outside, in a tapering pipe at the end of this string, which facilitates the flow of this string along a horizontal or pseudo-horizontal wellbore, a cement plug is created, and then this casing is uniformly perforated in the horizontal pseudo-wellbore . Using cementing and dispersed uniform perforation of the casing, a more uniform distribution of depression along the horizontal or pseudo-horizontal wellbore is created than in the horizontal or pseudo-horizontal wellbore, but without the casing in it, and, therefore, products are more uniformly extracted from the developed section of the hydrocarbon reservoir prevent local, massive breakthrough of fluid in any place into the well with horizontal or pseudo-horizontal bore even in the presence of a super collector or cracks.

Similarly, by cementing and dispersed uniform perforation of the casing in the injection well, the repression to the reservoir is more evenly distributed along the horizontal or pseudo-horizontal wellbore of this well and, therefore, the thermochemically prepared, gas-saturated displacer (for example, water) is pumped more uniformly into the reservoir into the volume of the developed deposit section than prevent the formation of powerful local flows of the displacer and, therefore, prevent the formation of stagnant zones in the manifold aside from these flows.

In addition, the negative effect of fractures in the reservoir on product recovery and water cut reduces horizontal and pseudo-horizontal wells of injection and production wells thus parallel to each other, but across the predominant direction of these fractures. In this case, the volume of the liquid displacer is pumped in a volume equal to the volume of the extracted fluid from the reservoir, at a volume rate of displacement of the displacer, which does not lead to hydraulic fracturing. All these measures prevent the formation of oil deposits and the formation of stagnant zones with oil in the deposits.

So, with the help of cementing and uniform perforation of casing strings in horizontal or pseudo-horizontal boreholes of production and injection wells, as well as with the help of depression and repression, they double control the development of deposits: both from the production side and from the side of the injection well. Moreover, even greater uniformity of the production flow into the well along a horizontal or pseudo-horizontal wellbore is additionally ensured by the fact that it creates an outflow inside the casing from opposite sides of its perforated part. For this, a pipe with a cone-shaped plug at its end and holes on the wall of the end section of this pipe before the plug is introduced into the casing from the wellhead to the end of the string in the zone of a horizontal or pseudo-horizontal wellbore without touching the cement plug. Products received through perforation into the casing are selected both through these openings in the pipe and through the gap between this pipe and the casing before the perforated section, i.e., they support depression from opposite sides of the perforated section.

Correspondingly, using the same introduced pipe into the casing in the injection well, the repression to the collector from both sides of the casing perforation section in the horizontal or pseudo-horizontal borehole is supported, which additionally ensures uniformity of the injection fluid along the horizontal or pseudo-horizontal borehole. To increase or maintain the temperature of the displacer injected into the reservoir above the reservoir temperature, as well as to increase the temperature of the produced product above the reservoir, a heater is introduced into the pipe from the wellhead to the holes in the pipe, thereby increasing the reservoir energy and preventing an increase in the viscosity of the oil in the reservoir, as well as particles of hydrates, the allocation of paraffin and their sedimentation both in the pores of the collector and on the wall of the casing and all the details in it in the production well, support or create gas ftny mode in it.

The uniform injection of a thermochemically prepared displacer and the uniform selection of products from the reservoir using horizontal or pseudo-horizontal boreholes equipped with casing strings equipped with an additional pipe and heater in the horizontal or pseudo-horizontal horizontal borehole create conditions for increasing production rate and oil recovery coefficient (CIN) from the manifold, as this increases the uniformity of coverage as a factor _(OHV K), the displacement volume of the product count projector of (on a macro level), thus preventing the formation of stagnant zones and increases in connection with it and the displacement factor _(K) of oil from the reservoir pores, prepared displacer thermochemically treated (at the micro level) and the product of these ratios according to the formula academic AP .Krylova [3], is equal to CIN:

CIN = K _ohv · K _in ,

therefore, the proposed method for the development of hydrocarbon deposits increases the oil recovery factor from the reservoir at any energy conditions for the development of deposits both during continuous production and in cyclic production.

For separate, enhanced extraction of gas with condensate from oil, production and injection wells are used, equipped with a sectional column introduced from the wellhead to the end of the bottom, made in the form of a pseudo-horizontal well in the gas zone of the reservoir, which goes into a horizontal well in the oil zone of the reservoir. Condensed gas is produced by a section in a pseudo-horizontal wellbore, and oil is produced by a section in a horizontal wellbore, and, accordingly, gas and a gas-saturated, thermochemically prepared displacer (for example, water) are pumped into different zones in the reservoir by injection wells.

The arrangement of sectional production and injection casing strings differs from the considered non-sectional casing strings in that in the zone of the pseudogorizontal wellbore between the pipe inserted up to the end of the bottom hole and the casing string a shortened pipe is placed, between which the packer is installed in the pseudogorizontal borehole, which divides the casing into two sections.

Thus, in the claimed method for the development of hydrocarbon deposits, the solution of the technical problem is carried out by the effective dual control of production: both production and injection wells. At the same time, into a well under construction with a horizontal or pseudo-horizontal wellbore or already built, but with a casing installed only before the start of a horizontal or pseudo-horizontal well, or into a well with a vertical well in the reservoir, which is converted into a well with a horizontal or pseudo-horizontal well, whether it be producing or an injection well, from the wellhead a casing is introduced over the entire length of the well.

The arrangement of a sectional casing string in the pseudo-horizontal and horizontal bore zone is shown in the drawing: at the end of this casing 1, a tapering pipe 2 is installed, the entire casing string is cemented outside and a cement plug 3 is created in the tapering pipe, the casing pipe is uniformly perforated in the horizontal barrel zone located in the oil well the zone of the reservoir and part of the pseudo-horizontal wellbore located in the gas zone of the reservoir, and into the casing from the wellhead to the cement plug, without touching it, introducing a pipe 4 with a cone-shaped plug 5 and holes 6 in front of it in the wall of this pipe, and a packer 8 is placed between another shortened pipe 7 and the casing 8. They create a depression in the production well and, accordingly, repression in the injection well on both sides of the perforated section of the casing in the zone of the horizontal wellbore and from the mouth side, in the zone of the pseudo-horizontal wellbore; a heater 9 is introduced into the smaller pipe from the wellhead to the holes in the pipe; the pipes 4 and 7 in the casing are fastened with hydraulic anchors 10, and the alignment between the casing and the pipes in the horizontal and pseudo-horizontal bore is supported by support rings 11 with conical holes for the passage of pipes and holes for the passage of liquids. The number and size of the column perforation holes, as well as the uniform depression created in the production well and the uniform repression in the injection well, double-regulates oil production, and the horizontal and / or pseudo-horizontal horizontal wells of the production wells are positioned parallel to the corresponding injection wells, but across the preferred direction of the cracks in the collector provide reliability and stability of the realization of the advantages of this double regulation, which creates loviya to increase oil recovery and to reduce the number of wells in the hydrocarbon reservoir developed.

Information sources

1. Grigoryan A.M .: Exploration of layers by multilateral and horizontal wells. - M .: Nedra, 1969, - 190 p.

2. Golov LV, Volkov SN: The state of construction and operation of horizontal wells in Russia. || Oil. hoz., No. 7, 1995, pp. 23-26.

3. Zakirov SN, Zakirov ES, Zakirov IS, Batanova MN, Spiridonov AV: New principles and technologies for the development of oil and gas fields. - M.: RAS IPNG, 2004.p.346-355, p.35.

Claims (9)

1. A method of developing hydrocarbon deposits using a production well having a horizontal wellbore in the reservoir, to the end of which a casing is inserted and cemented from the outside, which is perforated in the horizontal wellbore, characterized in that the well in the reservoir is used with a horizontal or with a pseudo-horizontal wellbore or with a pseudo-horizontal wellbore turning into a horizontal wellbore, inside the perforated casing from the mouth to the bottom, without touching the cement plug and the end of the casing pipe is introduced with a plug at the end and the holes in the end portion of the wall to align the depression in the reservoir along the borehole. 2. The method according to claim 1, characterized in that the injection well for injecting the energy-carrying displacer is created with a horizontal, or pseudo-horizontal, or pseudo-horizontal, turning into a horizontal wellbore, which is equipped with a casing string to the end of the well and is equipped similarly to the casing of a producing well and is injected thermochemically prepared, gas-saturated liquid displacer in an amount equal to the volume of liquid extracted from the reservoir by the producing well, and with a space velocity not leading to hydro azryvu producing formation. 3. The method according to claim 1 or 2, characterized in that the producing and injection wells with a pseudo-horizontal wellbore turning into a horizontal wellbore are equipped with sectional casing strings before the bottom, the pseudo-horizontal part of the producing well is located in the gas zone, and its horizontal part is in the oil zone and separately produce gas with condensate from oil, while heated gas and a thermochemically prepared liquid propellant are separately pumped into the injection well. 4. A method of developing hydrocarbon deposits using a production well having a horizontal or pseudo-horizontal wellbore in the reservoir, prior to which a casing string is introduced and cemented from the outside, through which a smaller diameter casing is inserted to the end of the horizontal or pseudo-horizontal wellbore, cemented from the outside and perforated along the length in the zone of a horizontal or pseudo-horizontal wellbore, characterized in that the well in the reservoir is used horizontally m or a pseudo-horizontal wellbore or with a pseudo-horizontal wellbore turning into a horizontal wellbore, a smaller diameter casing is introduced into the casing from the wellhead, and a pipe with a plug is inserted into the smaller casing from the wellhead to the bottom without touching the cement plug at the end of the casing at the end and with openings on the wall of the end section to even out the depression in the reservoir along the wellbore. 5. The method according to claim 4, characterized in that the injection well for injecting an energy-carrying displacer is created with a horizontal, or pseudo-horizontal, or pseudo-horizontal, turning into a horizontal wellbore, which is equipped with a casing string to the end of the well and is equipped similarly to the casing of a producing well and is injected thermochemically prepared, gas-saturated liquid displacer in an amount equal to the volume of liquid extracted from the reservoir by the producing well, and with a space velocity not leading to hydro azryvu producing formation. 6. The method according to claim 4 or 5, characterized in that the producing and injection wells with a pseudo-horizontal wellbore turning into a horizontal wellbore are equipped with sectional casing strings before the bottom, the pseudo-horizontal part of the producing well is located in the gas zone, and its horizontal part is in the oil zone and separately produce gas with condensate from oil, while heated gas and a thermochemically prepared liquid propellant are separately pumped into the injection well. 7. A method of developing hydrocarbon deposits using a production well having a vertical wellbore in which a casing string is introduced and cemented from the outside, and a new direction of the well is drilled through the casing wall above the reservoir and a horizontal or pseudo-horizontal wellbore is created in the reservoir, up to the end of which a casing of a smaller diameter is introduced, which is perforated in the horizontal or pseudo-horizontal horizontal zone, characterized in that the well is in a production reservoir The reactor is used with a horizontal or pseudo-horizontal wellbore or with a pseudo-horizontal wellbore turning into a horizontal wellbore, and a pipe with a plug at the end and openings on the wall of the end section is introduced into the smaller diameter casing from the mouth to the bottom without touching the cement plug at the end of the casing. alignment of depression in the reservoir along the wellbore. 8. The method according to claim 7, characterized in that the injection well for injecting the energy-carrying displacer is created with a horizontal, or pseudo-horizontal, or pseudo-horizontal, turning into a horizontal wellbore, which is equipped with a casing string to the end of the well and is equipped like a casing string of a producing well, and pumped thermochemically prepared, gas-saturated liquid displacer in a volume equal to the volume of liquid extracted from the reservoir by the producing well, and with a volumetric rate that does not lead to hydro fracture of the reservoir. 9. The method according to claim 7 or 8, characterized in that the producing and injection wells with a pseudo-horizontal wellbore turning into a horizontal wellbore are equipped with sectional casing strings before the bottom, the pseudo-horizontal part of the producing well is located in the gas zone, and its horizontal part is in the oil zone and separately produce gas with condensate from oil, while heated gas and a thermochemically prepared liquid propellant are separately pumped into the injection well.