RU2272869C2 - Storage pit building method - Google Patents

Abstract

FIELD: oil industry, particularly oil-field construction, namely to built storage pit adapted for oil-drilling waste storage.

SUBSTANCE: method involves digging out ground; erecting banking; forming waterproofing screen of film material with weld seams; connecting polymeric adhesive strips to back film side transversely to weld seams facing outwards so that space between strips is not more than 3 m and strip ends extend over outer screen surface, wherein the waterproofing screen has ample size; securing one end of waterproofing screen on pit edge by shackles and covering thereof with ground along the full pit edge; gradually laying unstrained waterproofing screen on pit bottom and side walls to reach opposite pit edge so that weld seams face outwards; loading screen edges across the full width and forming pleat at pit edge along the full perimeter thereof; securing the pleat with ground; fastening free edges of laid waterproofing screen along the full pit perimeter with shackles and covering thereof with ground; folding free screen edges in two in shackle installation areas and placing cantledge on pit bottom along the full perimeter thereof; placing textile protective screens over rocky ground zones. The waterproofing screen dimensions may be determined from given relation.

EFFECT: increased liquid product storage reliability.

2 dwg, 1 ex

Description

The invention relates to the oil industry and may find application in the arrangement of an oil field, in particular in the construction of a storage barn designed to accommodate well drilling waste.

A known method of construction of storage barn, including hydraulic washing of the soil, the construction of the bottom and walls, waterproofing permeable soils (V. Kolomeytsev, “Construction of foundations for well drilling in Western Siberia.” Overview. Ser. “Oilfield construction”, M., VNIIOENG , 1981, p. 18).

However, this construction technology is characterized by the complexity of the process, since it includes a series of works, one after another: planning and preparing a site for a bush base, hydraulic washing or delivery of soil, construction of a storage barn, and laying of waterproofing material. Each series of works, depending on the terrain, consists of smaller operations, which take a certain amount of time. As a result, the construction cycle of the storage barn is stretched over time.

A known method of construction of a storage barn, including planning works, waterproofing of permeable soils, which is performed by various compositions, coatings of waterproof materials and other compositions, and the construction of deboning (see RD-3D-133-94 "Environmental protection instructions for the construction of wells on oil and gas on land ", M., NPO" Drilling equipment ", 1994, S. 40-41).

The main disadvantage of this technology is a sharp increase in the cost of laying reliable waterproofing of the bottom of the storage barn built on permeable soil. In addition, the construction cycle of the storage barn is increasing, which leads to a rise in the cost of production costs.

A known method of construction of a storage barn, which consists in the implementation of planning work, preparing the base and waterproofing the bottom of the storage barn, which is carried out simultaneously by laying and compacting a sand-clay mixture with subsequent bunding (RF Patent No. 2144112, E 02 D 31/02, B 09 V 1/00, publ. 2000.01.10).

The known method leads to a reduction in capital costs and the construction time of the storage barn. However, the method does not lead to the creation of a barn with high-quality protection of the soil from the penetration of stored liquids.

Closest to the proposed invention in technical essence is a method of constructing a storage barn, including excavation, construction of deboning and laying on the bottom and walls of the barn of a waterproofing film made of a film material with welds RU 2058473 C1, E 21 B 21/06, 04/20/1996.

However, the method does not lead to the creation of a barn with high-quality soil protection from penetration of drilling waste.

The objective of the invention is to increase the reliability of storage of liquids.

The problem is solved in that in the method of constructing a storage barn, including excavation, deboning and laying on the bottom and walls of the barn of a waterproofing film made of film material with welds, according to the invention, the screen is made with a size margin and glued with polymer adhesive strips on the other side perpendicularly outwardly welded seams with a distance between the strips of not more than 3 m and the output strips on the outside of the waterproofing screen, while one edge of the waterproofing e the cranes are fixed on the barn edge with mounting brackets and sprinkled along the entire length with soil, the screen is gradually laid out with welds outside without tension on the bottom and the walls of the barn to the opposite edge, the edges of the screen are loaded in width and form a corrugation on the barn edge along the entire perimeter, and the corrugation is fixed with soil , fix the free edges of the laid waterproofing screen around the entire perimeter of the barn with mounting brackets and sprinkle with soil, and free edges of the screen in the places of installation of the mounting brackets are twisted in two layers I, and the bottom of the barn on the perimeter laid prigruzami, the size of a waterproofing screen is calculated according to the formula

A = a + 2.2s + K

B = b + 2.2s + K

where: A - screen length, m;

        B - screen width, m;

        a - the length of the barn, m;

        s - the depth of the barn, m;

        in - the width of the barn, m;

        K - coefficient taking into account the tolerance for mounting the screen and the formation of the corrugation, K = 2 - 2.5

in addition, on the bottom and walls of the barn in places where rocky soil is present, protective screens made of woven material are located.

For clay, loamy, crushed stone and sandy soils, K is taken equal to - 2, for rocky-fissured and bulk - 2.5.

If necessary, the waterproofing screen of the storage barn is made with dimensions that allow you to block the middle of the distance to the neighboring barn.

The features of the invention are:

1) excavation;

2) the construction of the debris;

3) isolation;

4) during excavation, the formation of the walls of the barn with an angle of inclination sufficient to keep the soil from collapsing;

5) at the junction of the wall with the bottom and the wall with a brow on the soil surface, the formation of smooth transitions;

6) removal from the surface of the barn of objects that can cause a violation of the integrity of the insulation during installation and operation;

7) supply of barn with protective screens in places of possible damage to insulation;

8) use for insulation of a waterproofing screen made of film material;

9) the implementation of the waterproofing screen with welds to the outside;

10) the same, with a margin of sizes for the formation of corrugations on the edge of the storage barn;

11) gluing on the other side of the waterproofing screen with strips of polymer adhesive tape perpendicular to the welds with a distance between the strips of not more than 3 m and the strips leading to the outside of the waterproofing screen;

12) when installing a waterproofing screen, fixing the edge of the screen on the edge of the barn with mounting brackets and dusting the entire length with soil;

13) the gradual laying of the screen without tensioning the welds outward to the bottom and walls of the barn to the opposite edge;

14) the same, with the simultaneous loading of the edge of the screen in width;

15) the same, with the formation of corrugation from the screen material on the edge of the barn around the entire perimeter;

16) fixing the corrugation with soil;

17) fixing the free edges of the laid waterproofing screen around the entire perimeter of the barn with mounting brackets;

18) dusting with soil while tucking in the free edge of the screen at the installation location of the mounting bracket in two layers;

19) laying the cargo on the bottom of the barn around the perimeter;

20) the calculation of the dimensions of the waterproofing screen according to the formulas with the rounding of the calculation of the length up to a multiple of five and a width of three.

Signs 1-3 are similar to the prototype, signs 4-20 are the salient features of the invention.

SUMMARY OF THE INVENTION

A storage barn designed to collect and store products generated during drilling and well repair should ensure the environmental safety of natural ecosystems and the public, in particular, provide reliable protection against contamination of soil, surface and ground water by filtrates of drilling fluids and process fluids for the entire construction period and well repair. Existing designs and technologies for the construction of a storage barn do not always ensure the reliability of liquid storage. The objective of the invention is to increase the reliability of storage of liquids. The problem is solved as follows.

During the construction of the storage barn, excavation, deboning and isolation are carried out.

The invention is illustrated by drawings, where in Fig.1 shows a barn, in Fig. 2 - sizing of film material in strips of polymer adhesive tape.

The barn includes walls 1 with an angle of inclination α sufficient to keep the soil 2 from collapsing, bottom 3, edges 4 on the surface of the soil with smooth transitions 5 from walls 1 to bottom 3 and edge 4. Protective screens 6 made of woven materials such as burlap are placed inside the barn from polypropylene and similar materials; and a waterproofing screen 7 of film material. The protective shields 6 and the waterproofing screen 7 are fixed to the barn edge 4 with mounting brackets 8 and are sprinkled along the entire length of the edge 4 with soil 9. The waterproofing screen 7 has a corrugation 10 along the entire perimeter and a ground load of 9 corrugations 10 with an interval of 2.5-3 m. Free the edge of the waterproofing screen 7 at the installation location of the mounting bracket 8 is tucked in at least two layers. At the bottom of the 3 barn around the perimeter with an interval of 3-4 m there is a load of plastic bags 11 filled with bulk material with a density of more than 1 t / m ³ . The waterproofing screen 7 is made with welds 12 outward with a margin of sizes for the formation of corrugations 10 on the edge 4 of the storage barn. On the other hand, the waterproofing screen 7 is glued with strips 13 of polymer adhesive tape perpendicular to the welds 12 with a distance between the strips 13 of not more than 3 m and the strips 13 leading to the outside of the waterproofing screen 7.

The construction of the cumulative barn is as follows. During the construction of the storage barn, excavation, deboning and isolation are carried out. When excavating the soil, the walls of the barn 1 are formed with an inclination angle α sufficient to keep the soil 2 from collapsing. For each type of soil, this value is individual and may depend on humidity, temperature, etc. Smooth transitions are formed at the junctions of wall 1 with bottom 3 and wall 1 with edge 4 on the soil surface 5. Objects that can cause integrity damage are removed from the surface of the barn insulation during installation and operation. These objects are most often stones with sharp edges, including protruding from the ground. Equip the barn with protective shields 6 in the places of possible insulation damage. As such protective shields 6, woven materials such as burlap made of polypropylene and the like are used. Places of possible damage to the insulation are determined by the composition of the soil. These places include rocky soils or soils with rocky inclusions. For insulation use a waterproofing screen 7 of film material, most often of plastic film. Use a film with a thickness of 0.25 mm or more. The film is heat-welded to cut the barn. The waterproofing screen 7 is performed with welds 12 outward with a margin of sizes for the formation of corrugations 10 on the edge 4 of the storage barn. On the other hand, the waterproofing screen 7 is glued with strips 13 of polymer adhesive tape perpendicular to the welds 12 with a distance between the strips 13 of not more than 3 m and the strips 13 being brought out onto the outside of the waterproofing screen 7.

The dimensions of the waterproofing screen 7 are calculated according to the formulas with the rounding of the calculation of the length upwards to a multiple of five and a width of three:

A = a + 2.2s + K

B = b + 2.2s + K

where: A - screen length, m;

B - screen width, m;

a - the length of the barn, m;

s - the depth of the barn, m;

in - the width of the barn, m;

K - coefficient taking into account the tolerance on the screen mount and the formation of the corrugation.

For clay, loamy, crushed stone and sandy soils, K is taken equal to - 2, for rocky-fissured and bulk - 2.5.

When installing the waterproofing screen 7, fix one edge of the screen on the barn edge 4 with mounting brackets 8 and sprinkle along the entire length with soil 9. Gradually lay the waterproofing screen 7 without tensioning welds 12 outward to the bottom 3 and walls of the barn 1 to the opposite edge 4, simultaneously load the edges of the waterproofing screen 7 are wide and form a corrugation 10 of the material of the waterproofing screen 7 on the edge of the barn 4 along the entire perimeter. Corrugation 10 is fixed with soil 9 with an interval of 2.5-3 m. The presence of corrugation 10 allows the waterproofing screen 7 to compensate for temperature and mechanical deformation at the time of installation and during operation. Fix the free edges of the laid waterproofing screen 7 around the entire perimeter of the barn with mounting brackets 8 and sprinkle with soil 9. At the same time, free edge of the waterproofing screen 7 at the installation location of the mounting bracket 8 is turned up in at least two layers of 70-100 mm. A load of plastic bags 11 filled with bulk material, such as sand, soil with a density of more than 1 t / m ^{3, is} laid on the bottom of the 3 barn around the perimeter with an interval of 3-4 m. This is necessary to eliminate the effect of floating and windage of the waterproofing screen 7 during operation.

An example of a specific implementation of the method.

Build a storage barn in accordance with the drawing. When excavating the soil, the walls of the barn 1 are formed with an angle of inclination of α = 45 °, which is sufficient to deter the collapse of the soil 2, which is crushed stone. At the junctions of the wall 1 with the bottom 3 and the wall 1 with the edge 4 on the surface of the earth, smooth transitions 5 with a radius ranging from 200 to 300 mm are formed. Stones with sharp edges, including those protruding from the ground, are removed from the surface of the barn. They supply the barn with protective shields 6 at the bottom 3 and on the walls 1 to a depth of 2 m in places where there is rocky soil. As protective screens 6 use a burlap made of polypropylene. For insulation, a waterproofing screen 7 of 0.3 mm thick plastic film is used. The film is heat-welded to cut the barn.

The dimensions of the waterproofing screen 7 are calculated according to the formulas with the rounding of the calculation of the length upwards to a multiple of five and a width of three:

A = a + 2.2s + K = 15 + 2.2 * 3 + 2 = 23.6 (rounded 25 m)

B = c + 2.2s + K = 8 + 2.2 * 3 + 2 = 16.6 (rounded 18 m)

where A is the length of the screen, equal to 25 m;

B - screen width equal to 18 m;

a - the length of the barn, equal to 15 m;

c - the depth of the barn, equal to 3 m;

in - the width of the barn, equal to 8 m;

K - coefficient taking into account the tolerance on the screen mount and the formation of the corrugation, equal to 2.

When installing the waterproofing screen 7, fix one edge of the screen on the barn edge 4 with mounting brackets 8 and sprinkle along the entire length with soil 9. Gradually lay the waterproofing screen 7 without tensioning the welds outward to the bottom 3 and walls of the barn 1 to the opposite edge 4, at the same time load the edges waterproofing screen 7 in width and form a corrugation 10 from the material of the waterproofing screen 7 on the edge of the barn 4 along the entire perimeter. The corrugation 10 is formed by folding the canvas with a width of 0.5 m. The corrugation 10 is fixed with soil 9 with an interval of 2.5-3 m. The presence of the corrugation 10 allows the waterproofing screen 7 to compensate for temperature and mechanical deformations at the time of installation and during operation. Fix the free edges of the laid waterproofing screen 7 around the entire perimeter of the barn with mounting brackets 8 and sprinkle with soil 9. At the same time, free edge of the waterproofing screen 7 at the installation location of the mounting bracket 8 is turned up in at least two layers of 70-100 mm. At the bottom of the 3 barn along the perimeter with an interval of 3-4 m lay a load of plastic bags 11 filled with sand.

As practice shows, a barn made in this way works reliably and provides isolation of soil from process fluids for the entire required period. Under the waterproofing screen is not observed swelling, windage. Gusts and other violations of the integrity of the waterproofing screen are not observed. Leaks of process fluids are completely absent.

The application of the proposed method will improve the reliability of the storage of liquids in the barn.

Claims (1)

A method of constructing a storage barn, including excavation, deboning and laying on the bottom and walls of the barn of a waterproofing film made of film material with welds, characterized in that the screen is made with a margin of size and glued with strips of polymer adhesive tape on the other side of the welds perpendicular to the outward with a distance between the strips of not more than 3 m and the output of the strips on the outside of the waterproofing screen, while one edge of the waterproofing screen is fixed on the edge the barn with mounting brackets and sprinkled along the entire length of the soil, the screen is gradually laid with welds outward without tension on the bottom and the walls of the barn to the opposite edge, they load the edges of the screen across the width and form a corrugation on the edge of the barn along the entire perimeter, fix the corrugation with soil, fix the free edges the installed waterproofing screen around the entire perimeter of the barn with mounting brackets and sprinkled with soil, and the free edges of the screen in the places of installation of the mounting brackets are twisted in two layers, and along the perimeter of the bottom of the barn labor stack load, while the dimensions of the waterproofing screen are calculated according to the formulas A = a + 2.2c + K; B = b + 2.2s + K, where A is the length of the screen; B - screen width; a is the length of the barn; c is the depth of the barn; in - the width of the barn; K - coefficient taking into account the tolerance for mounting the screen and the formation of the corrugation, K = 2 - 2.5 in addition, on the bottom and walls of the barn in places where rocky soil is present, protective screens made of woven material are located.

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