RU2278939C1 - Method for drilling horizontal well having distant bottom - Google Patents

Abstract

FIELD: well drilling, particularly special methods or apparatus for directional drilling.

SUBSTANCE: method involves drilling vertical well section from well head, initial well deviation section with increasing zenith angle up to value not exceeding critical value corresponding to well wall stability loss, well section characterized by zenith angle stabilization and increase to 90°; drilling horizontal well bore and communicating the bore with design tunnel of productive bed after zenith angle increase to magnitude exceeding 90°; drilling production well section. Vertical well section, initial well deviation section and zenith angle stabilization section are drilled up to point of anticline productive bed roof penetration along trajectory corresponding to maximal possible well bore length. Minimal possible distance from formation roof penetration point to gas-water surface or oil-water surface must meet the condition determined from mathematical expression. Well deviation sections with zenith angle increase to 90° and ascending near-horizontal sections are drilled in bottom ascending anticline formation zone. If productive zone is located on descending anticline part opposite to well head ascending near-horizontal well section is drilled up to point spaced from productive part inlet for distance calculated from mathematical expression.

EFFECT: increased reliability in the case of drilling of well having remote bottom at productive bed anticline and spaced from drilling rig in unstable caving rock.

2 cl, 3 dwg, 1 tbl, 1 ex

Description

The invention relates to the field of development of gas and oil deposits, in particular, horizontal drilling technology with a bottom hole remote from the mouth.

A known method of conducting a horizontal well, including drilling a vertical section and a section of the initial curvature (see Nikitin B.A., Mnatsakanov A.V., Oganov G.S. Design features of directional and horizontal wells with a large deviation from the vertical when developing offshore oil and gas fields. Scientific and technical journal. Construction of oil and gas wells on land and at sea / VNIIOENG - M., 1998. - Issue 7., p.6-9).

The disadvantage of this method is the inability to use when drilling a well on a reservoir that is surrounded by unstable, prone to collapse and groove formation of rocks, especially when the bottom deviates from the vertical for several kilometers. To ensure the stability of the borehole walls, it is necessary to use expensive drilling fluids, increase the number of casing strings to cover unstable intervals, or force the abandonment of well construction in a place optimal from the position of the formation development.

Also known is a method of conducting a horizontal well, including conducting a vertical section, a section of the initial curvature with a set of zenith angle up to a value not exceeding a critical value corresponding to a violation of the stability of the walls of the well, sections of curvature when stabilizing the Zenith angle to the interval of stable rocks located below the bottom of the reservoir , and by adding it to 90 °, drilling a horizontal section to a length that ensures after opening the zenith angle of more than 90 ° Nogo formation in the design point, followed wiring inclined or horizontal portion of the well in the reservoir (patent RU №2159318, E 21 B 7/06, 1999).

However, the known method involves the presence of intervals of stable rocks below the bottom of the reservoir. In the absence of the indicated intervals, it is not possible to use technologies in a known manner when developing deposits of an anticline structure.

The objective of the invention is to ensure reliable drilling of a horizontal well with a remote face to the anticline of the reservoir, located outside the rig in the thickness of unstable, prone to collapse and grooves of rocks, by optimizing the length of the trunk to the point of opening of the reservoir, preventing the opening of the aquifer formation and optimization of the trajectory of the well to the design opening point of the formation in a given corridor, taking into account the angle of incidence of the formation.

This goal is achieved by the fact that in the method of drilling horizontal wells with a remote bottom, including sequential wiring of a vertical section from the wellhead, a section of the initial curvature with a set of zenith angle to a value not exceeding a critical value corresponding to a violation of the stability of the walls of the well, sections of stabilization of the zenith angle and completing it up to 90 °, drilling a horizontal wellbore and entering the design corridor of a productive formation after a zenith angle of more than 90 ° is set, followed by Coy operating portion according to the invention, the vertical section of the wiring from the wellhead sections initial curvature and stabilization of the zenith angle is performed prior to the producing formation roof opening point anticline path corresponding to the smallest possible length of the barrel, the minimum distance h _additional roofing sheets from the opening point to the level of GVK or VNK should satisfy the following condition:

h _extra ≥R (1-sinα _cr ) + h _j + h _w ,

where R is the specified radius of curvature when typing the zenith angle up to 90 °, m;

α _cr - zenith angle at the opening point of the roof of the reservoir, deg .;

h _j - the maximum possible error of the position of the opening point of the formation roof vertically, m;

h _w - the maximum possible error in the position of the GVK or VNK vertically, m,

and the posting of the sections of the curvature with the addition of the zenith angle up to 90 ° and the rising subhorizontal section is carried out in the bottom of the rising part of the anticline formation.

When the production section is located on the opposite side of the descending part of the anticline, the uprising subhorizontal section is posted to a point remote from the entrance of the production section at a distance A _H , determined by the following formula:

A _H = R '(cosα + sinθ),

where R 'is the specified radius of curvature of the correction section of the path of the trunk to go into the production area, m;

α - zenith angle of the beginning of the section of the correction of the trajectory of the barrel, deg .;

θ - dip angle, degrees.

Thanks to such an implementation of the method of drilling a horizontal well with a remote bottom hole on the reservoir located outside the rig in the thickness of unstable, prone to collapse and grooves of rocks, increases the success of trouble-free construction of the well, reduces the metal structure of the well by reducing the zenith angle and the length of the inclined -directional borehole in unstable rocks, the descent of additional casing strings to prevent unstable s intervals rocks expanding application field of horizontal well construction technology for producing formations in the thickness unstable, and prone to obvalo- zheloboobrazovaniyu rocks. In addition, the uprising subhorizontal section in the reservoir provides the effect of self-cleaning of the well from mechanical impurities (sand) carried out from the near-wellbore during installation of the tubing at the beginning of the upstream section.

Figure 1 schematically depicts a vertical and horizontal projection of an anticlinal structure with a reservoir in the vault; figure 2 shows the trajectory of the trunk, to avoid opening the aquifer of the reservoir, not exceeding the minimum vertical distance from the opening point of the roof of the reservoir to the gas-water contact of the gas reservoir or the oil-water contact of the oil reservoir; figure 3 presents the plot of the reservoir at the opposite from the drilling unit of the falling part of the anticline.

The proposed method of posting a horizontal well with a remote bottom hole is as follows.

In unstable, inclined to guttering and collapse of rocks I from drilling rig A or B or C, a vertical section 0-1 is posted, in the initial curvature section 1-2 a zenith angle is set up to α _cr not exceeding the critical value in specific mining -geological conditions, when the stability of the walls of the well is lost, stabilization of the zenith angle is carried out along the path corresponding to the minimum possible length of the trunk in section 2-3, providing the smallest length of the barrel in unstable rocks due to the opening at point 3 of the productive layer II of the anticline closest to the wellhead 0. They gain an anti-aircraft angle of up to 90 ° in section 3-4. In the vicinity of point 4 in section 3-4, a section of the horizontal wellbore begins, passing through point 4 and ending in a section of a set of zenith angle of more than 90 ° - section 4-5. The section of the horizontal wellbore may be insignificant in comparison with other sections, therefore, this section is not noticeable in the figures 1-3.

Drilling uprising subhorizontal section 5-6 is carried out for a length that ensures, after correcting the trajectory of the trunk in section 6-8, access to the design corridor h _{cr of} productive formation II at design point 8 and the production section 8-9 in a given corridor h _{cr of} productive formation II.

In order to avoid opening the aquifer of the III stratum, the minimum permissible vertical distance h _add from the point of opening of the roof 3 to GVK 10 in the gas reservoir or KSS 10 in the oil reservoir is accepted

h _extra ≥R (1-sinα _cr ) + h _j + h _w ,

where R is the specified radius of curvature in the area 3-4 sets of zenith angle up to 90 °;

α _cr - zenith angle at point 3 of the opening of the roof of the reservoir II;

h _j - the maximum possible error of the position of the point 3 of opening the roof of the formation vertically;

h _w - the maximum possible error in the position of GVK or VNK vertically.

Posting of production section 8-9 of productive formation II, located on the opposite part of the descending part of the anticline, is preceded by drilling of the rising subhorizontal section 5-6 to point 6, spaced from the point 8 of the beginning of production section 8-9 at a distance A _H , determined by the formula A _H = R '(cosα + sinθ),

where R 'is the specified radius of curvature of the section 6-8, which carry out the correction of the trajectory of the barrel to go to the operational section 8-9,

α is the zenith angle at point 6,

θ is the angle of incidence of the reservoir.

The following is an example of the implementation of the method at the Yurkharovskoye field, located under the water area of the Taz Bay. Consider the Cenomanian gas reservoir PK _1-2 with the depth of GWC on the roof h _gvk = H _cr = 1200 m. The angle of rise and fall of the roof of the reservoir is 5 °. Distances from the vertical passing through the wellhead to the opening point of the roof of the reservoir A _cr = 1000 m; before the start of the production site 2050 m; to the end of the operational section 2550 m. The length of the vertical section 270 m, the radii of curvature in the initial curvature 1-2R _{1 =} 382 m and the radius of curvature in the 3-4 section of the zenith angle up to 90 ° R ₂ = 286.5 m, the maximum possible the error of opening the roof of the formation h _w = 2 m and the position of the GWC h _w = 2 m, critical zenith angle, beyond which the stability of the walls of the well outside the zone of the productive formation α _cr = 65 ° is lost.

Define the maximum deviation (A _max ) of the bottom from the vertical at α _cr = 65 °.

Table 1 Interval view Projection interval, m Horizontal Vertical Vertical α _0-1 = 0 h _0-1 = 270.0 Zenith angle increases α _1-2 = R ₁ (1-cosα _cr ) = 382 × (1-cos 65 °) = 220.6 h _1-2 = Rsinα _cr = 382 × sin 65 ° = 346.2 Straightforward α _2-3 = h _2-3 tgα _cr = 453.8 × tg65 ° = 1252.0 h _2-3 = H _cr -h ₀ h ₁ = 1200-270-346.2 = 583.8 Total: A _max = α ₀ + α ₁ + α ₂ = 0 + 220.6 + 1252.0 = 1472.6 H _cr = 270.0 + 346.2 + 583.8 = 1200.0 m

The condition A _max = 1472.6> And _additional = 1354.0 m is observed, because when the deviation from the wellhead is 1354.0 m, the thickness of the productive formation PK _1-2 (distance from the roof to the water supply) is h _pl = (A _ext -A _cr ) tgθ = (1354-1000) tgθ = 31 m and the borehole trajectory fits into layer PC 1.2, without opening the GVK:

h _add = h + h _j + h _w = R ₂ (1-sinα _cr ) + h _j + h _w = 286.5 (1-sin65 °) + 2 + 2 = 27 + 4 = 31 m = h _square

The proposed method improves the reliability of a horizontal well with a remote bottom when the drilling rig is located outside the field and reduces labor and material costs by opening a productive layer located in the thickness of unstable rocks.

Claims (2)

1. A method of drilling horizontal wells with a remote bottom hole, comprising sequentially conducting a vertical section from the wellhead, a section of the initial curvature with a set of zenith angle to a value not exceeding a critical value corresponding to a violation of the stability of the walls of the well, sections of stabilization of the zenith angle and adjusting it to 90 ° , drilling a horizontal wellbore and entering the project corridor of a productive formation after a zenith angle of more than 90 ° has been set, followed by a production site, I distinguish iysya in that the wiring of the vertical portion of the wellhead sections initial curvature and stabilization of the zenith angle is performed prior to the producing formation roof opening point anticline path corresponding to the smallest possible length of the barrel, the minimum distance h _additional tamper point roofing reservoir to the level of HVA or VNK must satisfy the following condition: h _extra ≥R (1-sinα _cr ) + h _j + h _w , where R is the specified radius of curvature when typing the zenith angle up to 90 °, m; α _cr - zenith angle at the opening point of the roof of the reservoir, deg .; h _j - the maximum possible error of the position of the opening point of the formation roof vertically, m; h _w - the maximum possible error in the position of the GVK or VNK vertically, m, and the posting of the sections of the curvature with the addition of the zenith angle up to 90 ° and the rising subhorizontal section is carried out in the bottom of the rising part of the anticline formation. 2. The method according to claim 1, characterized in that when the production section is located on the opposite side of the descending part of the anticline, the uprising subhorizontal section is posted to a point remote from the entrance of the production section at a distance A _H , determined by the following formula: A _H = R '(cosα + sinθ), where R 'is the specified radius of curvature of the correction section of the path of the trunk to go into the production area, m; α - zenith angle of the beginning of the section of the correction of the trajectory of the barrel, deg .; θ - dip angle, degrees.

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