RU2769622C1 - Method for constructing a pit for a horizontal flare - Google Patents

Abstract

FIELD: building.

SUBSTANCE: invention relates to the petroleum and gas industry, in particular, to construction of earthen pits accompanying drilling works on permafrost and seasonally frozen soils. In order to solve the stated task, a layer of an anti-filtration screen, a heat insulation layer of expanded vermiculite with a reduced compression coefficient, a layer of a heat-resistant load-distributing material laid in a levelling layer with slabs of heat-resistant concrete laid on top, are used in the construction of a pit. Slabs of a heat-resistant concrete are located on the inner slopes of the pit, and, if necessary, an additional layer of fire-retardant blocks serving as protective armour in the area of critical temperatures from the horizontal flare is arranged on the horizontal surface of the pit.

EFFECT: creation of a method for constructing a pit for a horizontal flare, preventing the thawing of the soil, ensuring the durability of the structure in work under conditions of alternating freezing and heating, and ensuring the safety of all elements of the pit under the impact of the flame of the flare.

1 cl, 4 dwg, 1 tbl

Description

The invention relates to the oil and gas industry, in particular, to the construction of earthen barns associated with drilling operations on permafrost and seasonally frozen soils.

A known method of building a lodgment barn, according to which a foundation pit is prepared in the ground, the side walls of which are made of clay and covered with a layer of sand on top [RF Patent No. 62424 MPK E21V 33/138 dated 23.08.2006].

The disadvantage of this technical solution is the fragility of the structure, namely the possibility of entrainment of sand and destruction of clay when exposed to a torch. In addition, with this model of the barn device, soil thawing is possible.

A known method of building a barn, which includes preparing a pit in the ground and waterproofing its cavity. At the same time, industrial and technological drilling waste is used in the form of a mixture of the spent technological solution with drill cuttings. The lining of the bottom and internal slopes of the surface of the barn is made with a mixture of the spent technological solution with drill cuttings-slurry, and then the waterproofing of the cavity of the barn and the formation of its strength structure by conducting technologically provided gas-hydrodynamic studies of the well, which are accompanied by the combustion of a gas torch, with the help of which thermal roasting is carried out in a flame torches of the constructed bottom and internal slopes of the surface of the barn. [Patent of the Russian Federation No. 2431733 MPK E21V 21/06 dated 26.08.2010].

The disadvantage of the construction method of the barn is the fragility of the structure, namely the possibility of destruction of sludge and sand when exposed to a torch. In addition, with this model of the barn device, soil thawing is possible.

The closest technical solution is a method for constructing a base for a flare installation, including dumping from the ground, placing a layer of heat-insulating material in it and a lower layer of ventilation pipes, covered with geotextile and / or non-woven material [RF Patent No. 130613, IPC E02D dated 01/29/2013 ].

The disadvantage of this method is the complexity of the foundation device process, insufficient thermal insulation of the soil from thawing and high cost in the case of using cooling devices.

The technical objective of the claimed invention is to ensure the durability of the structure when operating in conditions of alternate freezing and heating, ensuring the safety of all elements of the barn when exposed to a torch flame.

The technical result is an obstacle to soil thawing.

The technical result is achieved in that, according to the method, a pit is prepared in the ground in the form of a trough, on top of which a layer of an impervious screen is laid, a heat-insulating layer of expanded vermiculite with a reduced compression ratio, a layer of heat-resistant load-distributing material, then covered with a leveling layer, on top of which slabs of heat-resistant concrete are laid , while slabs of heat-resistant concrete are installed on the internal slopes of the barn

If necessary, an additional layer of refractory blocks is laid on the horizontal surface of the barn over heat-resistant concrete slabs that act as protective armor in the region of critical temperatures from a horizontal torch.

The use of the claimed technology and barn design ensures the durability of the structure due to the use of heat-resistant concrete slabs, their location and, if necessary, protective armor, while simultaneously protecting the soil from thawing due to the use of expanded vermiculite.

The essence of the invention is illustrated by drawings, where in Fig. 1 shows a top view of a flare barn; in fig. 2 - view of the barn in section; in fig. 3 - bunding unit; in fig. 4 - layer-by-layer assembly.

The technical result is achieved due to the fact that a trough is cut out at the base of the soil, a layer of an impervious screen 1 is laid on it, a heat-insulating layer of expanded vermiculite 2 is laid, a layer of heat-resistant load-distributing material 3 is laid, after which the leveling layer 4 is dumped and plates of heat-resistant concrete 5. Next, the embankment and slopes 6 are installed, the slabs of heat-resistant concrete 5 are installed on the internal slopes of the barn and, if necessary, an additional layer of refractory blocks 7 is laid, which perform the function of protective armor in the region of critical temperatures from a horizontal torch.

The device of the impervious screen 1 allows you to protect the soil from the penetration of the leachate, in case of its formation. A geomembrane based on polyethylene with various additives is used as an impervious screen. The screens are connected to each other by extrusion welding or hot wedge welding.

Heat-insulating layer 2 is made of expanded vermiculite grade M-150 or M-200 (table) with a reduced compression ratio (packed in geo-boxes or specialized bags) and serves to prevent thawing of perennially frozen soils at the base of flare pits during the operation of flare devices (TU 21-25-328-2016 revision 1).

The arrangement of a layer of heat-resistant load-distributing material 3 provides reinforcement of an embankment erected on unstable foundations. In addition, the stability of slopes and slopes is ensured, protecting them from erosive destruction under the influence of water and wind. An impregnated glass grid (geogrid) is used as a heat-resistant load-distributing material.

Backfilling of the leveling layer 4 on the geogrids is carried out using a planner excavator. The thickness of the leveling layer must be at least 300 mm. The layer is compacted by a single-drum vibratory roller. Soil should be compacted at optimal moisture. In case of insufficient soil moisture, they are moistened with a watering machine. Compaction of the leveling sand layer is carried out simultaneously with its leveling. When filling the leveling layer in winter, it is necessary to use exclusively prepared imported soil with minimal moisture.

After preparation of the base, slabs 5 of the “FP” or “FPZhF” brand are installed from heat-resistant fiber-reinforced concrete of increased thermal and frost resistance according to TU 23.61.12-004-72675614-2016 to protect the structure of the barn from high-temperature exposure to the flame of a gas torch.

Upon completion of the installation of the bottom plates, the shafts of the barn are backfilled with soil with layer-by-layer compaction 6. Then the inner surface of the barn is backfilled with a leveling layer of sand and compacted for the installation of lining plates. After that, the lining plates are installed along the internal slopes, taking into account their slope.

The seams between the slabs and the loop spaces are sealed with heat-resistant concrete made from a dry mix TS-5 for filling the seams between the slabs (TU 23.61.12-009-72675614-2016).

If necessary, an additional layer of refractory blocks of lining blocks 7 OFP-1 (TU 23.20.12-007-72675614-2018) is laid on the horizontal surface of the barn from heat-resistant plates 5, which performs the function of protective armor in the region of critical temperatures from a horizontal torch.

The use of the proposed method makes it possible to ensure the durability of the structure when operating under conditions of alternate freezing and heating, ensuring the safety of all elements of the barn when exposed to a torch flame, and also preventing soil thawing.

The claimed method is recommended for use in the development of oil and gas condensate fields.

Claims (1)

A method for constructing a barn for a horizontal torch, characterized in that a pit is prepared in the ground in the form of a trough, on top of which a layer of an impervious screen is laid, a heat-insulating layer of expanded vermiculite with a reduced compression ratio, a layer of heat-resistant load-distributing material, then backfilled with a leveling layer, on top of which plates are laid from heat-resistant concrete, while slabs of heat-resistant concrete are installed on the internal slopes of the barn, if necessary, an additional layer of refractory blocks is laid on the horizontal surface of the barn over heat-resistant concrete slabs that perform the function of protective armor in the region of critical temperatures from a horizontal torch.

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