RU130613U1 - TORCH BASE DEVICE - Google Patents

Abstract

1. The device base for the flare installation, containing a bed of soil and a layer of insulation material, characterized in that it is provided with a bottom layer of ventilation pipes placed in the dump soil below the layer of insulation material. 2. The device according to claim 1, characterized in that it is provided with an upper layer of ventilation pipes placed in a dump above a layer of heat-insulating material, while the ventilation pipes of the upper layer are X-shaped with respect to the ventilation pipes of the lower layer. The device according to claim 1 or 2, characterized in that it is provided with a lower layer of heat-insulating material, placed under the lower layer of ventilation pipes with the possibility of formation of a closed loop around it when connected to the upper layer of heat-insulating material. The device according to claim 3, characterized in that cooling devices are installed in the pipes and / or between the pipes of the lower layer of the ventilation pipes. The device according to claim 3, characterized in that the bottom layer of the ventilation pipes is covered with geotextile and / or non-woven material.

Description

The utility model relates to the field of construction of fishing facilities on permafrost soils, in particular, to base devices for flare installations.

A device for the base of the flare installation is known, containing the foundation of an earthen bulk barn, in which a burner device of a horizontal flare installation is installed, a tray made of heat-resistant steel in front of it and a baffle wall made of heat-resistant reinforced concrete plates installed in front of the torch. rf / articles / 1208.html].

In the known device, under the influence of a burning gas, the temperature on the soil surface rises significantly, which leads to subsidence of the base for the flare installation (flare site) and flooding of the barn with water resulting from the melting of ice.

A device is known for the foundation on frozen ground for a flare installation, containing a bed of soil and a layer of heat-insulating material, which is - extrol insulation boards that separate the bed from frozen ground, [http://www.extrol.org/build/ road / ].

Despite the fact that the use of the heat insulation material “Extrol”, designed for operation in the Far North, can significantly reduce the intensity of the process of thawing frozen soil, a layer of such material is not able to prevent the process of thawing frozen soils, leading to subsidence of the flare area, its flooding , and, ultimately, the occurrence of emergency situations.

The objective to which the claimed utility model is directed is to reduce the potential for emergencies during the operation of the flare unit, by increasing the efficiency of protecting its base from deformation, subsidence and flooding resulting from thawing of frozen ground.

The technical result is achieved by the fact that the base device for the flare installation, containing a bed of soil and a layer of heat-insulating material, is provided with a bottom layer of ventilation pipes placed in bulk soil below the layer of heat-insulating material.

In addition, the device can be provided with a top layer of ventilation pipes, placed in the filling above the layer of insulating material, while the ventilation pipes of the upper layer are X-shaped with respect to the ventilation pipes of the lower layer.

The device may be provided with a lower layer of heat-insulating material placed under the lower layer of ventilation pipes with the possibility of formation of a closed loop around it when connected to the upper layer of heat-insulating material.

Cooling devices may be installed in the pipes and / or between the pipes of the lower layer of the ventilation pipes, the lower layer of the ventilation pipes can be covered with geotextile and / or non-woven material.

The installation of the lower layer of ventilation pipes through which cold air is naturally blown or with the help of fans in the winter will allow cooling of the bedding from the soil, and the installation of the upper layer of ventilation pipes will increase the efficiency of this cooling. X-shaped placement of the pipes in relation to each other in different layers allows this cooling to be carried out most evenly.

Placement in the device of an additional lower layer of heat-insulating material, which, when connected to the upper layer of heat-insulating material, forms a closed loop - a cover around the lower layer of ventilation pipes, improves the efficiency of freezing of loose soil by isolating the layer of ventilation pipes from frozen ground and flare area.

Placing in the pipes and / or between the pipes of the bottom layer from the ventilation pipes of cooling devices provides even more effective cooling of the loose soil, and coating the pipes with non-woven (geotextile) material does not allow the soil to wake up in the cracks between the pipes.

Thus, the organization of support in the frozen state of the loose soil prevents the thawing of the soil, protecting the base of the flare unit from deformation, subsidence and flooding.

The utility model is illustrated by drawings, where: in Fig. 1, a base device for a flare installation with a layer of ventilation pipes is shown; figure 2 - with two layers of ventilation pipes; figure 3 - c cooling devices.

The installation of the base on frozen ground for a flare installation intended for areas with permafrost soils includes a soil dumping 1 with an embankment on which a flare platform with a fireproof (heat-shielding) coating 2 is formed. A gas supply line 3 with a nozzle 4 of a horizontal flare installation is installed on the flare site . Opposite the nozzle 4 there is a baffle wall 5. In the dump 1 there is a layer of heat-insulating material 6, below which a layer of ventilation pipes 7 is installed, covered from above with a geotextile (or non-woven) material 8.

Over the layer of heat-insulating material 6 can be installed an additional upper layer of ventilation pipes 9, placed (laid) X-shaped relative to the pipes 7 of the lower layer.

To increase the efficiency of freezing of loose soil below the lower layer of ventilation pipes 7, an additional lower layer 10 of heat-insulating material is placed, forming a cover with the upper layer of heat-insulating material 6, a heat-insulating layer of ventilation pipes 7 from frozen ground and flare pad.

The metal ventilation pipes 7 and 9 serve as soil coolers, since in winter they move cold air, purged naturally or with the help of fans. On top of the pipe is covered with non-woven (geotextile) material 10 so that the soil does not wake up in the gap between the pipes.

To further increase the effectiveness of soil freezing in the ventilation pipes 7 and / or between them, cooling devices 11 of the type of seasonal cooling devices (SOU) can be installed. A pile support field is formed from soil columns frozen by the evaporators of the SOU.

The proposed solution reliably protects the base for the flare unit from destruction and flooding resulting from thawing of frozen soil, thereby increasing the possibility of trouble-free operation of the entire flare unit.

Claims (5)

1. The device base for the flare installation, containing a bed of soil and a layer of heat-insulating material, characterized in that it is provided with a bottom layer of ventilation pipes placed in bulk soil below the layer of heat-insulating material. 2. The device according to claim 1, characterized in that it is provided with a top layer of ventilation pipes, placed in the filling above the layer of insulating material, while the ventilation pipes of the upper layer are X-shaped with respect to the ventilation pipes of the lower layer. 3. The device according to claim 1 or 2, characterized in that it is provided with a lower layer of heat-insulating material placed under the lower layer of ventilation pipes with the possibility of formation of a closed loop around it when connected to the upper layer of heat-insulating material. 4. The device according to claim 3, characterized in that cooling devices are installed in the pipes and / or between the pipes of the lower layer of the ventilation pipes. 5. The device according to claim 3, characterized in that the bottom layer of the ventilation pipes is covered with geotextile and / or non-woven material.

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