RU2730071C1 - Method for winter extraction of permafrost peat - Google Patents

Abstract

FIELD: peat production.SUBSTANCE: invention relates to peat production, namely, to technology of winter extraction of peat of undisturbed structure under conditions of permafrost. Method includes cutting peat blocks from frozen deposit to entire depth of freezing through longitudinal and transverse saw cuts, forming drying figures and storage, characterized in that prior to peat extraction, performing preliminary evaluation of deposit freezing thickness, for example, by means of georadar survey, when cutting, the outer edges of the extreme blocks are sawed at angle of 70–80°, wherein thickness and width of cut block correspond to depth of deposit freezing, and block length is not less than three block widths, drying figures formation is performed by arrangement of blocks in staggered order, leaving between blocks of cavity (space), width of which is not less than 1/3 of blocks length.EFFECT: use of the invention increases efficiency of peat extraction and drying under conditions of permafrost in winter without significant rise in the cost of the whole process due to optimization of peat extraction from the frozen deposit and drying of the extracted blocks.3 cl, 2 dwg

Description

The invention relates to peat production, namely, to the technology of winter extraction of undisturbed peat in permafrost conditions.

There is a known method of extracting peat with an undisturbed structure (see SU No. 1046520, class E21C 49/00, publ. 07.10.1983), including cutting pieces of peat from a deposit, forming drying figures and transporting dried peat to storage sites, moreover, pieces of peat are cut arbitrary shape, and the formation of drying figures is carried out simultaneously with cutting the pieces by loading them into lattice containers installed on the surface of the deposit.

The disadvantage of the known solution is the significant metal consumption of the process, mainly due to the manufacture of lattice containers, which, with significant volumes of peat extraction, significantly increases the cost of work. In addition, the method involves the extraction of peat on a drained and pre-prepared for exploitation peat deposits, which will require additional time and resources.

A method of winter extraction of peat of undisturbed structure is also known from the early state of the art (see SU No. 48432, class E21C 49/00, C10F 5/00, publ. 31.01.1937), including cutting blocks (bars) of peat from a frozen deposit and forming drying figures, and the formation of drying figures is carried out under a canopy, in a special shed, the roof and side walls of which are composed of shutters rotatable in a vertical plane.

Forming drying figures manually is a rather laborious operation, taking into account the fact that each block (bar) of frozen peat can weigh up to 70 kg. In addition, the method involves the use of special structures (sheds) for drying peat, which is not economically rational with large volumes of peat extraction.

The method of winter extraction of undisturbed peat (see FI No. 56853, class C10F 3/00, publ. 12/31/1979) includes cutting peat blocks from frozen deposits, forming drying patterns and transporting dried peat to storage sites. In this case, the known technical solution involves the formation of drying figures directly at the sites of its extraction, on a waterproof film previously laid under its base, or transporting the cut peat to dry land, followed by placing it in figured drying.

The known solution requires the performance of drainage and drainage works, which is associated with significant capital costs. In addition, it is associated with the laboriousness of stacking peat blocks in drying figures, randomly loaded into the bodies of vehicles during transportation to the place of laying, and subsequent disassembly of drying figures. At the same time, crumbling of the cut peat blocks is inevitable during loading and unloading operations, which reduces the quality of the resulting product and complicates the formation of drying figures.

The closest to the claimed solution is a method for winter extraction of peat with an undisturbed structure (see RU No. 2001275, class E21C 49/00, C10F 5/02, publ. 15.10.1993), including cutting peat blocks from frozen deposits, forming drying patterns and Removal of dried peat to storage sites, peat blocks are cut with arcuate concentric curvature of two opposite surfaces, and drying figures are formed on a movable base of the vehicle, after which they are taken out to the drying field and unloaded by rolling off the movable base while maintaining the integrity of the entire figure. In this case, the peat blocks are cut to the entire freezing depth of the deposit, and the first layer of blocks is laid on the movable base with the wet surface of the freezing boundary upward, in the direction of the drying figure building up.

The disadvantage of this method is the lack of predictive assessment of the depth of freezing of the peat layer and ensuring the completeness of the extraction of the peat layer in the frozen state, which is convenient for storage for subsequent drying.

The objective of the present invention is to improve the efficiency of the process of extraction and drying of peat in permafrost conditions.

To solve this problem, the method of winter mining of permafrost peat, including cutting blocks of peat from a frozen deposit to the entire freezing depth with longitudinal and transverse cuts, the formation of drying figures and storage, is distinguished by the fact that before the extraction of peat, a preliminary assessment of the thickness of the freezing of the deposit is performed, for example, by GPR research, when cutting, the outer edges of the extreme blocks are sawn at an angle of 70-80 °, while the thickness and width of the cut out block correspond to the depth of freezing of the deposit, and the block length is at least three block widths, the drying figures are formed by arranging the blocks in a checkerboard pattern, leaving between blocks of voids (spaces), the width of which is at least 1/3 of the length of the blocks. In addition, the formation of drying figures is carried out directly at the site of waste strips for cutting blocks. In addition, the formed drying figures are covered with a moisture-proof film.

Comparative analysis of the features of the claimed solution with the features of analogs indicates the compliance of the declared solution with the "novelty" criterion.

A new sign on the determination of the freezing depth of the peat layer, for example, by georadar research, makes it possible to preliminarily estimate the thickness of the frozen peat deposit and determine, based on the freezing depth, the geometric parameters of the extracted blocks, to build a planned approach to organizing work on winter peat mining, incl. by selecting production sites. In addition, preliminary exploration contributes to the extraction of peat with minimal losses, because the extraction of peat is carried out after freezing to the entire depth to bedrocks or sandy-clay deposits.

The sign of the execution of longitudinal and transverse cuts determines the size and correct shape of the extracted blocks, which facilitates the work on the formation of drying figures, while cutting the outer edges of the outermost blocks on the site at an angle of 70–80 ° makes it easier to extract the cut deposits from the massif.

The sign of storing blocks in figures on the drying platform in a checkerboard pattern, in which through voids are formed between the blocks, allows to accelerate and improve the quality of the peat drying process.

Under permafrost conditions, peat deposits are deployed around lakes and in swampy areas, which excludes extraction in the summer. In this regard, the extraction of peat, as a rule, is carried out in the winter period, when the peat freezes to its full capacity and can withstand the technique.

Thus, upon reaching the freezing depth of the peat deposit, capable of withstanding the load from the wheeled vehicle, they start cutting peat blocks from the frozen deposit. For this purpose, after preparing the production site for mining by cleaning the snow cover, vegetation, the depth of freezing of the peat deposit is determined by means of the GPR method.

The claimed solution is illustrated in the drawing, where figure 1 shows a diagram of the organization of cutting blocks of peat from frozen deposits at the production site, figure 2 is a diagram of the storage of the extracted blocks at the site for drying.

The essence of the claimed solution lies in the fact that a machine equipped with a bar or disk working body is made in a peat deposit first longitudinal cuts 2, then transverse cuts 3. The parameters of block 1 are determined by the freezing depth, while the thickness and width of the extracted block 1 are equal to the freezing depth, and the length is taken in a ratio of 1: 3 to the depth of freezing (see Fig. 1). At the same time, to facilitate extraction, the outer edge of the extreme blocks 4 is cut at an angle of 70–80 °, the rest are cut at a right angle. As a result, the recoverable blocks are separated from the massif by longitudinal 2 and transverse 3 cuts, while at the bottom they are limited by seasonally thawed layer 5 and clay-clay deposits 6, which makes it easy to separate the blocks from the massif.

To extract blocks of frozen peat, use a special technique, for example, a forklift, then, the blocks are transported to the site for laying into drying figures (see Fig. 2). Laying is carried out on dry land or on a specially prepared drying area, for which, in order to intensify winter drying, the blocks are stored in figures 7, placing them in a staggered manner, so that through spaces (voids) 8 with a width are formed between the blocks, for example , 1/3 block length. Formed figures from blocks for drying, for example, in the form of a pyramid, can be additionally covered with a moisture-proof film. Thus, the air-permeable figures of the blocks are subjected to intensive freeze-drying, which makes it possible to intensify the peat drying process.

The method of winter mining of permafrost peat is carried out as follows.

The depth of peat freezing is determined by a GPR, for example, grade OKO-2 complete with an antenna unit AB-250, based on the analysis of the wave pattern by one of three criteria: high amplitude values associated with a significant contrast of the electrophysical properties of thawed and frozen rocks; regular reflections that form extended synphase axes, typical of bedded rocks; presence of repeated signal reflections.

The measurements are taken on a permanent profiling basis. In areas with contrasting reflections at well sites, measurements are performed on a variable base with a spacing, for example, up to 20 meters, in order to determine the velocity value from the hodograph of the reflected wave.

In GPR measurements, the upper frozen layer is characterized by minimal absorption of electromagnetic waves, which creates optimal conditions for studying peat deposits. And the consistency of the properties of the upper layer laterally excludes the influence of near-surface conditions during GPR profiling.

The task of mapping peat deposits is in fact a classical task of ground-penetrating radar: a large contrast between the permittivities of peat (50-80) and host rock (6-30) provides a clear correlation of the in-phase axes of reflected waves even under conditions of strong attenuation of an electromagnetic wave.

Upon reaching the freezing depth of the peat deposit, capable of withstanding the load from the wheeled machine, it is allowed to start cutting peat blocks 1 from the frozen deposit. For this, a machine equipped with a bar or disk working body makes longitudinal 2, starting from the edge of the deposit, then transverse 3 cuts in the peat deposit. In this case, the outer edge of the extreme blocks 4 is cut at an angle of 70–80 °, the rest - at a right angle. The distance between the longitudinal cuts 2 determines the length of the extracted blocks 1, which, for example, is 3 freezing depths. Cross cuts 3 determine the width of blocks 1, which can be at least the thickness of block 1.

After the cuts of the deposit, the sawn blocks 1 of frozen peat are removed using a forklift and sent for drying, for which, the cut blocks 1 are placed in drying figures 7 on dry land or on a specially prepared drying area. Laying can also be carried out in place of used strips for cutting blocks by flat moving blocks 1 from the cutting zone to the stacking zone. Thus, the strip on which the peat was excavated can also serve as an additional drainage network.

In order to intensify winter drying during storage, figures 7 are formed by stacking blocks 1 in a checkerboard pattern so that voids 8 with a width of, for example, 1/3 of the length of the blocks are formed between the blocks 1. The resulting drying figure 7, made, for example, in the form of a pyramid, can be covered with a moisture-proof film. By placing the peat in air-permeable shapes, a more intensive freeze-drying is achieved in a short time. Further, dried peat blocks, if necessary, can be transported to separate storage areas (see Fig. 1, 2).

The use of the present invention makes it possible to increase the efficiency of extraction and drying of peat in permafrost conditions in winter without a significant increase in the cost of the entire process by optimizing the organization of work on the extraction of peat from frozen deposits and drying of the extracted blocks.

Claims (3)

1. A method for winter mining of permafrost peat, including cutting peat blocks from a frozen deposit to the entire freezing depth with longitudinal and transverse cuts, forming drying figures and storing, characterized in that before starting peat mining, a preliminary assessment of the freezing thickness of the deposit is performed, when cutting the outer edges of the extreme blocks are sawn at an angle of 70-80 °, while the thickness and width of the cut out block correspond to the depth of freezing of the deposit, the drying figures are formed by arranging the blocks in a checkerboard pattern, leaving through voids between the blocks, the width of which is at least 1/3 of the block length. 2. The method of winter mining of permafrost peat according to claim 1, characterized in that the preliminary assessment of the thickness of the freezing of the deposit is carried out by means of GPR research. 3. Method for winter mining of permafrost peat according to PP. 1 and 2, characterized in that the formed drying figures are covered with a moisture-proof film.

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