RU2796283C1 - Method for degassing areas of coal seam in structurally heterogeneous rock mass of seismic active regions of coal basins - Google Patents

Abstract

FIELD: coal industry.

SUBSTANCE: method is proposed for degassing sections of a coal seam in a structurally heterogeneous rock mass in seismically active regions of coal basins. The method includes selecting a mining block and a mining column in the block, also includes driving development workings outlining the mining column, drilling degassing wells, sealing them and connecting the wells to a gas suction device with the possibility of changing the vacuum. Degassing wells of directional drilling are oriented normally to the surfaces of geological discontinuities and are located unevenly with an increase in their number in zones of geological discontinuities of the discontinuous type. The axes of the bundles of degassing wells of directional drilling outside the zone of geological discontinuities of the discontinuous type are located in such a way that the axes of the wells coincide within ±30° with the direction of the maximum horizontal stress vector.

EFFECT: increasing the safety of staff and improve the technical performance of the mine by reducing the gas content of the workings and unscheduled stoppages of the faces due to the gas factor when mining gas-bearing coal seams in seismically active areas.

1 cl, 2 dwg

Description

The method relates to mining and can be applied in the degassing of coal seams in seismically active areas, where the rock mass includes discontinuous geological faults.

A known method of preliminary degassing of unloaded coal seams before the start of tunneling operations, including determining the distances between wells, drilling rising or descending wells beyond the contours of future production, connecting wells to a vacuum pump and degassing the seam (Instruction for degassing coal mines. Series 05. Issue 22. - M.: CJSC Scientific and Technical Center for Research on Industrial Safety Problems, 2012. - 250 p.)

The disadvantage of this method is the low productivity (flow rate, consumption) of degassing wells, their non-optimal length and number, since wells are drilled at equal distances between them along the length of the extraction column without taking into account the increased fracturing of the rock mass in the vicinity of geological discontinuities, cracks and local methane collectors .

Known "Method of degassing of unloaded seams" (RU 2442899, IPC E21F 7/00, publ. 20.12.2012), in which the opening of unloaded coal seams is carried out by drilling wells that should maximally cross macrocracks, microcracks and nanocracks.

The disadvantage of this method is that the degassing wells are located evenly without taking into account the intensity of fracturing in local areas of the coal seam, for example, in zones of geological disturbances. Consequently, this method leads to a large number of degassing wells, since the spatial position of local methane collectors, for example, in zones of geological faults, is not taken into account.

Another disadvantage of the method is the location of wells that must cross the maximum number of cracks without taking into account the direction of the main horizontal stress vector, which leads to the destruction of the walls of the wells, mechanical suffusion of particles that plug the cross section of the wells, and a decrease in the gas permeability of the coal seam.

The closest technical solution to the proposed invention is the "Method for degassing a developed coal seam" (RU 2133344, IPC E21F 7/00, publ. sealing and connection to a suction device with the possibility of changing the vacuum.

The disadvantage of this method is the presence of underground workings that outline the extraction column, drilling wells into zones of increased fracturing without taking into account the stability of the walls of the wells between the workings and zones of increased fracturing, the need to stop the faces during the drilling of degassing wells, since the number and position of wells quickly changes and depends on gas content. workings.

The technical problem solved by the invention is to improve the safety of personnel and improve the technical and economic performance of the mine by reducing the gas content of workings and unscheduled stoppages of workings by gas factor when mining gas-bearing coal seams in seismically active areas.

From the preparatory workings of a previously prepared adjacent extraction column, bundles of directional drilling wells are carried out in such a way that the axes of the wells intersect the surfaces of geological faults of discontinuous type or the surfaces of neighboring heterogeneous blocks along the normal, and within the boundaries between the surfaces of the well structures, the axes of the wells are parallel to the vector of the main horizontal maximum stress . Such an arrangement of wells provides maximum gas recovery of a partially destroyed formation in the zone of influence of geological discontinuities of the discontinuous type and the stability of the walls of the wells between adjacent geological discontinuities of the discontinuous type. The possibility of using geological faults of discontinuous type as the main sources of gas, as the main natural channels of fluids, is confirmed by statistical data on the spatial distribution of sources of sudden outbursts of coal, rock and gas (see Preparation and development of highly gas-bearing coal seams / A.D. Ruban, V. B. Artemiev, V. S. Zaburdyaev [et al.] - M.: Gornaya kniga, 2010. - 500 p.). The uneven location of wells after crossing geological discontinuities of the discontinuous type provides for the expansion of the area of the degassed formation and the increase in the period of degassing using undamaged wells.

The present invention is illustrated in the drawing, where in Fig. 1 shows a diagram of the degassing of the developed formation within the excavation column, partially delineated by development workings, in Fig. 2 is a diagram of the location of directional drilling wells in the central mining block.

In the preparatory workings 1 niches 2 are carried out, in which drilling equipment is installed and drilling of a beam 3 of wells 4 of directional drilling is carried out. Wells 4 are located in such a way that in the zone 5 of the intersection of wells 4 and geological faults of discontinuous type 6, the axes of the wells are oriented normally to the surfaces of geological faults of discontinuous type 6, and outside zone 5, the direction of wells 4 should not deviate from the vector of the main maximum horizontal stresses 7 by more than ± 30 degrees. Wells 4 are sealed and connected to a methane suction device.

Ensuring an increased well flow rate when crossing geological faults of a discontinuous type and other anomalous zones is achieved due to the accumulation of fluids in natural structures of a discontinuous type.

As a specific example of the application of the invention, the central extraction block of the operating mine of Kuzbass (Fig. 2), including three extraction columns of the mined coal seam, was selected. The upper excavation column has been worked out, the middle excavation column is in the development stage, the lower excavation column is in the preparation stage. Based on the results of geophysical research and analysis of the digital terrain model, geodynamic active structures of discontinuous type 6 were identified within the mine field.

In the zone of influence of geodynamic structures, relative displacements of the wings of the folds up to 3-4 m and the formation of methane reservoirs are possible (see Preparation and development of high-gas-bearing coal seams / A.D. Ruban, V.B. Artemiev, V.C. Zaburdyaev [and others]. - M.: Gornaya kniga, 2010. - 500 p.).

According to the results of the analysis of patterns of distribution of cracks and recommendations (see Direction of the main vector of horizontal stresses in a coal rock massif and the stability of development workings / E.A. Razumov, V.G. Venger, E.Yu. Pudov, S.I. Kalinin // Gorny Journal. - 2022. - No. 1. - S. 119-124) the direction of the vector 7 of the maximum horizontal stresses σ ₁ =σ _max (Fig. 1, Fig. 2) was determined.

From the preparatory workings 1 of the excavation pillars, before contouring them from below with other preparatory workings, bundles of 3 wells 4 of directional drilling were carried out so that they crossed the geological discontinuities along the normal, and outside the zones of influence of these discontinuities, the axes of the wells 4 coincided within ± 30 ° with the direction of the vector 7 main horizontal stress. After sealing and connecting wells 4 to a vacuum pump, the lower extraction column was degassed.

The possibility of forming local gas reservoirs at the intersection of cracks and zones of influence of geological faults, as well as at the areas of splitting or merging of layers, the boundaries of lenticular layers of sandstone in the roof of the reservoir, the boundaries of the zones of destruction of roof rocks and soil of the worked-out reservoir is confirmed by many research results, which are systematized in monographs : Preparation and development of highly gas-bearing coal seams / A.D. Ruban, V.B. Artemiev, B.C. Zaburdyaev [i dr.]. - M.: Mining Book, 2010. - 500 s; Bespyatov G.A. Synergetics of outburst hazardous environment / G.A. Bespyatov, V.N. Vylegzhanin, S.S. Golden. - Novosibirsk: Nauka, 1996. - 191 p.

Outside the zone of influence of underground workings, the natural state of the coal seam and rocks in the zones of geological faults remains unchanged. However, when natural movements of the earth's crust occur, fluids migrate, including deep-seated methane in the form of intense ascending flows from underlying horizons, along structural faults. Consequently, in the zones of influence of these faults, the balance of stresses and pressure of methane is disturbed. When degassing wells or development workings cross these zones, under the influence of the gas pressure gradient, mechanical suffusion occurs, the movement of fine particles of coal and their extrusion into the well or working. Therefore, the degassing well should cross the fault zone at the shortest distance, i.e. perpendicular to the surface of geological discontinuities of the discontinuous type. In this case, in the zone of influence of geological disturbances of discontinuous type, along the length of the well, a three-phase state of gas occurs in a fractured medium: free, sorbed and hydrated gas (see Bespyatov G.A. Synergetics of an outburst-prone mountain environment / G.A. Bespyatov, V. N. Vylegzhanin, S. S. Zolotykh, Novosibirsk: Nauka, 1996, 191 p. With a long section of the well in the zone of influence of the fault, the well is covered with fine coal and clay particles. Therefore, conducting a degassing well along the fault zone is not rational.

When working out adjacent extraction columns under the influence of additional technogenic processes and increased rock pressure, a change occurs along the seams of violations of the discontinuous type of pressure of gas, liquid, stress-strain state. The presence of directional drilling well sections within geological faults with a change in methane pressure and vacuum leads to an intensification of gas release, which is confirmed in practice.

According to the results of field measurements, it was found that the coal seam and its host rocks in the vicinity of a geological fault of a discontinuous type are partially destroyed, according to the results of numerical modeling, it was found that the residual strength of coal and rocks in this zone is 62% of the original strength. Consequently, the coal-rock mass in the vicinity of the geotectonic structure is characterized by increased fracturing and is a potential gas reservoir.

Therefore, the location for the extraction of methane of a bunch of degassing wells of directional drilling in zones of influence of the geotectonic structure will lead to an increase in the release of methane into the wells.

Thus, the location of the bunch of wells normally to the surface of discontinuous geological disturbances, with a minimum length of the section of each well in the zone of its influence, contributes to maximum gas recovery.

The increased stability of development workings oriented parallel to the vector of the main horizontal compressive stresses is confirmed by the experience of domestic and foreign mines (see Geomechanics in coal mines / G.I. Korshunov, A.K. Loginov, V.M. Shik, V.B. Artemiev. - M .: Publishing house "Mining" LLC "Cimmerian Center", 2011. - 388 s), since the lateral pressure in the working is less than the pressure along the axis of the working. This principle is used in coal mines when choosing the optimal direction of development workings that outline long excavation pillars. The specified regularity of the stability of workings has been proven during drilling and operation of degassing wells. It has been established that in wells drilled perpendicular to the vector of maximum horizontal stresses, coal is destroyed on the well contour, a flow of fine coal particles occurs, which partially or completely clogs the cross section of the wells. The consequence of this mechanical suffusion is the clogging of the fractured medium in the vicinity of the well.

Therefore, it is recommended to conduct drainage wells outside the zones of influence of these geological disturbances in such a way that the axes of the wells coincide within ±30° with the direction of the vector of maximum horizontal stress.

Claims (1)

A method for degassing sections of a coal seam in a structurally heterogeneous rock mass of seismically active areas of coal basins, including the selection of an extraction block and an extraction column in the block, driving development workings outlining the extraction column, drilling degassing wells, sealing them and connecting the wells to a gas suction device with the possibility of changing vacuum, characterized in that the degassing wells of directional drilling are oriented normally to the surfaces of geological discontinuities and are arranged unevenly with an increase in their number in the zones of geological discontinuities of the discontinuous type, and the axes of the bundles of degassing wells of directional drilling outside the zone of geological discontinuities of the discontinuous type are arranged in such a way that the axes wells coincided within ±30° with the direction of the maximum horizontal stress vector.

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