RU2769793C1 - Earth structure on permafrost with a transversal slope of the terrain - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction of transport and other structures on permafrost. An earthwork on permafrost with a transverse slope of the terrain contains a body of a structure erected on a territory with natural conditions, and a surface zone with natural conditions disturbed as a result of the construction of the body of the earthwork, which is directly adjacent to the body of the structure, while the earthwork is located on a transverse slope. The earthwork is located on ice grounds and contains, on the border of the surface zone with disturbed natural conditions and the territory with natural conditions, a protective array of height "h" and width "b" from low-moisture soil, located along the border of the body of the structure, where "h" is equal to the level difference soil in frozen and fluid states during thawing, and "b" is determined from the conditions of stability of the protective array after thawing and spreading of ice soil from the side of the body of the structure.

EFFECT: ensuring the safety of the territory surrounding the earthwork after the construction of the earthwork itself.

3 cl, 7 dwg

Description

The invention relates to the field of construction of transport and other structures on permafrost.

An earthen structure is known with a transverse slope of the terrain, containing a body of a structure erected in a territory with natural conditions, and a surface zone with disturbances as a result of the construction of the body of an earthen structure by natural conditions, which is directly adjacent to the body of the structure. (G.M. Shakhunyants. Roadbed of railways, State transport railway publishing house. M., 1953, fig. 3, 28).

The disadvantage of this technical solution lies in the fact that under permafrost conditions, deformations of the structure itself can occur.

An earthwork is known not in permafrost with a transverse slope of the terrain, containing a body of a structure erected in a territory with natural conditions, and a surface area with natural conditions disturbed as a result of the construction of the body of an earthen structure, which is directly adjacent to the body of the structure (Specifications for design, construction and commissioning of railways on the Yamal Peninsula STO Gazpromtrans 4. 2012. M., 2012., p. 5. 20 and p. 5.23). A feature of the technical solution in comparison with analogues is that measures have been taken to preserve the natural temperature regime of soils by positioning slopes and thereby reducing the thickness of snow deposits, which lead to thawing or even degradation of permafrost.

The disadvantage of this technical solution is that in the presence of ice grounds lying close to the surface, it is not enough to simply apply measures to stabilize the temperature regime of permafrost soils. Soil thawing may begin due to local disturbances of the surface, and not in the vertical, but in the horizontal direction towards the increase of the natural surface in the surrounding area and, at the same time, with the thickness of the thawed layer increasing with time. This can lead to catastrophic deformations in the surrounding area, and, as a secondary consequence, to the destruction of the body of the earthen structure itself (road excavation, embankment, earthen platform for the village, etc.).

The purpose of the proposed invention is to ensure the safety of the territory surrounding the earthwork after the construction of the earthwork itself.

This goal is achieved by the fact that the earthwork on permafrost with a transverse slope of the terrain contains the body of the structure, erected on the territory with natural conditions, and a surface zone with natural conditions disturbed as a result of the construction of the body of the earthwork, which is directly adjacent to the body of the structure, with In this case, the earthwork is located on ice grounds and contains, on the border of the surface zone with disturbed natural conditions and the territory with natural natural conditions, a protective array of height "h" and width "b" from low-moisture soil, located along the boundary of the body of the structure, where "h" is equal to the level difference soil in frozen and fluid states during thawing, and "b" are determined from the conditions of stability of the protective array after thawing and spreading of ice soil from the side of the body of the structure.

The protective array can be a soil laid in a trench with a depth "h" and a width "b", and the soil in the thawed state has an angle of repose "ϕ" in the range of 40-60 °, and the width of the array "b" is equal to

The protective array can also be a laid horizontal strip of gabions, which in cross section consists of several gabions with a total width "h", connected to each other pivotally at the level of the lower bases and fixed in the ground from the upper side of the territory, while the upper surface of the strip coincides with surface of the surrounding soil.

The essence of the invention is shown in the drawings, where

in fig. 1 shows a general view of an earthen structure in the form of a railway excavation,

in fig. 2 shows a general view of an earthen structure in the form of a marginal section of a dirt platform for a village,

in fig. 3 shows node A in FIG. 1 and 2 - underground version of the protective array,

in fig. 4 shows node A in FIG. 1 and 2 - ground version of the protective array,

in fig. 5 shows the nature of thawing in the summer period of the surface zone with natural conditions disturbed as a result of the construction of the body of the earthwork, the case of low-ice (low-moisture) soils,

figure 6 shows the nature of the thawing in the summer period of the surface zone with natural conditions disturbed as a result of the construction of the body of the earthen structure, the case of ice soils,

in fig. Figure 7 shows the sequence of soil thawing in the territory with natural conditions as a result of the formation of a zone with disturbed natural conditions.

An earthen structure on permafrost with a transverse slope of the terrain contains a body 1 of the structure erected in territory 2 with natural conditions, and a surface zone 3 with natural conditions disturbed as a result of the construction of the body 1 of the earthen structure, which is directly adjacent to the body 1 of the structure. In this case, the earthen structure is located on the transverse slope of the terrain. In FIG. 1, the body 1 of the structure is the subgrade of the excavation of the railway, and in FIG. 2 - this is the outskirts of the site for the village, while the width in the first case is "α ₁ ", and in the second - "α ₂ ". Territory 2 with undisturbed natural conditions in Fig. 1 and 2 is located at the width C ₁ , C ₂ , C ₃ . The disturbed surface area 3 on the surface is located in FIG. 1 and 2 on the width d ₁ , d ₂ , d ₃ . In the first case (Fig. 1), the disturbance of natural conditions takes place during the formation of the excavation, as a result of which the vegetation cover was removed and the soil was cut. In the second case, the violation of the heat balance and, consequently, additional thawing occurs as a result of increased snow deposits, which form along line 4 during strong snow transfer, which is characteristic of the polar tundra.

The earthwork contains a protective array 5 with a height "h" and a width "b" of low-moisture soil, located along the boundaries of the body of the structure. The height "h" is assigned based on the following considerations. Under natural conditions, when thawed soil in the summer is only from the surface (i.e., the active layer), and the main part is frozen, then the position of the natural surface is determined by lines 2 or 3 with a slope of 1:i ₁ . If there is thawing of ice grounds (and this technical solution is intended specifically for the case of occurrence of ice grounds and buried ice), then the upper boundary of the thawed and blurred soils occupies position 6 with a slope of 1: i ₂ and a horizontal inclination angle equal to "α". The height "h" of the protective array is the vertical distance between line 3 and 6 at the point of contact of zones 2 and 3. The width "b" of the protective array is determined from the conditions of stability of the protective array after thawing and spreading of ice ground from the side of the body 1 of the structure.

The design of the protective array 1 may be different. In FIG. 3 and 4 show two schemes of this design. According to the first scheme, soil is laid in a trench during the construction of an earthen structure (Fig. 3). In the case of thawing and spreading of soil 7, the soil mass takes a triangular shape with a slope 8 and an angle of repose "ϕ". In this case, from geometrical considerations

According to the second scheme, the soil (preferably rocky) is laid in gabions 9. The protective array (Fig. 4) is a horizontally laid strip of gabions, which in cross section consists of several gabions 9 with a total width "h", connected to each other using hinges 10 at the level of the lower bases and anchored in the ground from the upper side with the help of rods 11 and anchors 12. In this case, the upper surface of the strip coincides with the surface of the surrounding soil

In FIG. 1-7 to explain the essence of the work of the structure, the following positions are presented:

13 - axis w. d. way,

14 - frozen massif of soils,

15 - thawed soil (active layer),

16 - position of the zero isotherm,

17 - the surface of the ice ground after thawing,

18 - vertical zone without a layer of thawed soil,

19 - direction of horizontal thawing,

20 shows the position of the gabion strip 9 in FIG. 4 after thawing of the soil mass 7,

21 is the turf layer in FIG. 6.

Earthwork work.

To understand the operation of the structure, let us consider the schemes of thawing and deformation of soils in various natural conditions. In ordinary soils of low and medium moisture content (ice content), thawing and deformation occur according to the scheme shown in Fig. 5. This figure shows the state of thawing soils in the middle of the summer period in relation to the railway excavation shown in FIG. 1 (position 13 in Fig. 5 - the axis of the railway track). At the beginning of the summer period, the soil begins to thaw in the direction perpendicular to the surface, and by the middle of the summer period, a layer of thawed soil 15 is formed at the contact with the common frozen massif 14. The thickness of this layer increases by the end of the warm period of the year, but the soil remains in place. In winter, it freezes again, then thaws again, i.e. the so-called active layer is formed, while the distance "δ" of the zero isotherm 16 from the surface changes from zero at the end of the winter period to a certain value at the end of the summer period (generally different depending on the average summer air temperature).

The processes of thawing and deformation occur in a completely different way during the occurrence of ice soils (Fig. 6). If its skeleton is formed in unimportant soil during thawing, and the soil remains in place, then when the ice soil thaws, a liquid mass is formed, which, in the presence of a slope, flows down, forming a new surface 17 with a slope of 1: i 2.

At the same time, a soil zone 18 is formed without a layer of thawed soil on the surface. And since there is no soil layer, then there is no thermal resistance, and the thawing process does not slow down, i.e. during the season, not 1-2 m of soil thaws, but tens and even hundreds of meters! But the most important thing is that thawing changes direction, which becomes not perpendicular to the natural surface, but parallel to it. In this case, if the direction of thawing coincides with the increase in the level of the natural surface (i.e., it goes up the slope), then zone 18 increases, and large massifs can thaw during the summer season. On fig. Figure 7 shows a real example of such thawing on one of the railways in the polar tundra. Position 19 shows the direction of thawing.

To prevent horizontal thawing, the proposed technical solution contains a protective array 5, which, at the contact of disturbed 3 and undisturbed 2 zones, creates additional thermal resistance and prevents the development of horizontal thawing. Protective array 5 according to the scheme of the first works as follows. When array 7 thaws, the soil of the protective array changes its shape: slope 8 is formed at the angle of repose "ep", which ensures its further stability. Massif 7 is restored with new soil. It is inefficient to immediately replace array 7 during construction instead of a protective array, since unfavorable thawing is not always formed, but only in a certain number of cases. Also, restoring array 7 is not always necessary.

The protective array according to the second scheme works as follows. When array 7 thaws, gabions descend and occupy position 20 (Fig. 4) and "lock" the undisturbed territory. Sod (vegetation layer) 21 could play the role of a protective array, but it collapses and floats along with the thawing ice ground.

When developing the proposed technical solution, the following technical contradiction was resolved. Strong snow transport in the conditions of the polar tundra to prevent snow drifts requires, for example, slopes with very gentle slopes for the excavation of railways for the construction of which it is necessary to cut off the upper layers of the soil, exposing the underlying ice grounds. In other types of structures, on the contrary, it is necessary to raise earthen platforms above the level of the natural surface, as a result of which large snow deposits accumulate at the contact of these structures with the natural territory, which lead to increased thawing values. These surface disturbances, on the one hand, affect the temperature regime of foundation soils within the structure itself, and, on the other hand, affect the environment. As for the structure itself, a number of measures have been developed to compensate for the negative consequences of these violations. But the worst thing is that these violations under certain natural conditions (transverse slope of the terrain, the presence of ice soils) are a kind of "detonator capsule" for catastrophic environmental destruction, the magnitude of which is unpredictable.

Thus, the technical contradiction is formulated as follows: in order to ensure the operational characteristics of an earthen structure, it is necessary to make the above violations, but from the point of view of preserving the environment, these violations cannot be done. The way out of this contradiction lies in the creation of a protective array, which "locks" the earthen structure from the surrounding space.

The alleged invention contains the following essential features.

The first significant feature is that the earthen structure contains the body of the structure and the zone disturbed as a result of the construction of the structure located next to it and is located on a natural surface with undisturbed natural conditions.

The second significant feature is that the structure, together with the surrounding territory with undisturbed natural conditions, is located on a transverse slope of the terrain, and ice grounds lie in the foundations throughout this territory.

The third significant feature is that the earthwork contains a protective array.

All three essential features are necessary and sufficient to achieve the goal - to ensure the safety of the territory surrounding the earthwork after the construction of the earthwork itself.

In addition, two additional paragraphs provide additional details on the design of the protective array.

The scope of the proposed technical solution is the vast expanses of polar tundra in the Arctic, where intensive development is currently underway - roads, residential and industrial buildings are being built. The effectiveness of the technical solution is to ensure the environmental safety of the territory, and the territory where disturbed natural conditions are restored very slowly.

Claims (3)

1. An earthen structure on permafrost with a transverse slope of the terrain, containing a body of a structure erected in a territory with natural conditions, and a surface zone with natural conditions disturbed as a result of the construction of the body of an earthen structure, which is directly adjacent to the body of the structure, while the earthen structure is located on a transverse slope, characterized in that it is located on ice grounds and contains, on the border of the surface zone with disturbed natural conditions and territories with natural natural conditions, a protective array of height "h" and width "b" from low-moisture soil, located along the border of the body of the structure, where "h" is equal to the difference in soil levels in frozen and fluid states during thawing, and "b" is determined from the conditions of stability of the protective array after thawing and spreading of ice soil from the side of the body of the structure. 2. An earthwork according to claim 1, characterized in that the protective array is soil laid in a trench with a depth "h" and a width "b", and the soil in the thawed state has an angle of repose "ϕ" within 40-60 ° , and the width of the array is

3. An earthwork according to claim 1, characterized in that the protective array is a horizontally laid strip of gabions, which in cross section consists of several gabions with a total width "h", connected to each other pivotally at the level of the lower bases and anchored in the ground with upper side of the territory, while the upper surface of the strip coincides with the surface of the surrounding soil.

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