RU1809102C - Method for airing of extraction districts - Google Patents

Abstract

Usage: coal industry, development of adjacent methane-bearing strata with a descending order of mining. SUMMARY OF THE INVENTION: Fresh air is supplied to the bottomhole space of an overlying formation through two outcrop mining outcrops. The air is vented through the ventilation outlet and the channel located in the exhausted space. The latter is supported by the support. Wells are run from the venting formation of the underlying formation to the overlying one. Report wells with a channel. The channel length is not less than twice the distance between the wells. The discharge of the outgoing stream from the excavation section into the ventilation formation of the underlying formation is carried out through the channel and wells. 2 ill. ё

Description

The invention relates to the coal industry and can be used in the development of close seams.

The purpose of the method is to increase the efficiency and reliability of ventilation in a descending order of development of adjacent methane-bearing formations, reduce the length of the ventilation network with the outgoing stream, and increase its utilization rate, increase the concentration of mining operations, and remove the limiting effect of the gas factor on the load level plots.

This goal is achieved by the fact that in the known method, comprising supplying fresh air to the bottomhole space of the overlying formation in two contours -. excavating pillar workings and

allotment for ventilation openings and channels located in its mined-out space in a descending order of mining of adjacent methane-bearing strata.

The channel located in the worked-out space of the overlying formation is supported by the lining, and wells are drawn from the ventilation development of the underlying formation to the overlying and communicating with the supported channel and the bottom hole space of the upper lava, the outgoing stream is removed from the excavation section into the ventilation development of the underlying formation through a supported channel and wells, and the length of the support. The channel should be at least 2R, where R is the distance between the wells.

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Figure 1 shows a diagram of ventilation; Any excavation sites while mining adjacent layers in their plane; figure 2 is the same in the plane of their vertical section.

. The method is carried out as follows. - :; / g

Air is supplied to the excavation section of the upper developed formation 1 through two contouring workings 2, washes its treatment space 3 and is directed to the wells 4, drilled from the ventilation workings 5 of the worked-out formation b to the formation 1, through a supported channel in the worked-out space of the overlying formation 7, for example, using bjbt 8 pedestals.

 After the lava has opened and passed through the overlying formation, the section of the worked space of the lay 7 is enclosed on both sides by reinforced support (for example, BZHP 8. Thus, a channel is formed for passing the outgoing stream to the wells 4 and through them to the ventilation production of the underlying formation 5 into the common outlet stream of both formations.To ensure the reliability of the method, the outlet stream is discharged in at least two wells, the first from the overburden

the well is equipped with a portable box for people to exit in an accident.

The coal-bearing stratum of the excavation sections of the Underlying formation is degassed by mining operations of the overlying formation, as a result of which the methane accumulation of these sections is insignificant, “the converging ventilation stream of these sections is practically not loaded with methane, which determines the possibility of dilution of the outgoing stream of the excavating sections of the overlying formation with this stream to the required conditions and

more complete use of air supplied to the plots.

An advantage of the proposed method is that when it is used, there is no need to maintain ventilation output in the mined-out lava space along the entire length of the excavation section. In this case, the monitoring of the production state can be carried out over a length equal to no more than twice the distance between the gesenoks (wells), and the parameters of the outgoing stream are -1 over a length equal to the distance between the gesenoks (wells). Reducing the length of the production with the outgoing stream improves the aerodynamic parameters of the ventilation network of the section: reduces depression and increases the possible air flow in the section, which ensures the removal or significant weakening of the limiting effect of the gas factor on the load of the treatment plant

The removal of the outgoing jet of treatment faces of the above- and underlying formation in one ventilation outlet provided for by the claimed method helps to reduce their number and length.

Significant reduction in the length of the ventilation development of the excavation section of the upper formation: it determines the possibility of simultaneous mining of the upper and lower adjacent layers in the same excavation field when mining operations of the upper formation are outstripped by more than a double distance between gesenk (wells). Using this feature will ultimately lead to increased concentration

mining and loading on the excavation field.

Performance Analysis

the proposed method in conditions of high

gas release in the workings of the upper developed layer showed the possibility of increasing the load on the working face by the gas factor by 1.5-3.0 times, reducing the cost of maintaining the production. A quantitative assessment of the economic effect is possible when applying the method in specific conditions.

Claims (1)

SUMMARY OF THE INVENTION A method for ventilating excavation sites, comprising supplying fresh air to the bottomhole space of an overlying formation by two delineating excavation pits and an outlet along ventilation openings and a channel located in its mined space, characterized in that, in order to increase efficiency and the reliability of ventilation in a descending order of mining of proximate methane-bearing planks to reduce the length of the ventilation network with the outgoing stream, the channel located in the worked-out space of the overlying formation is supported by lining, and from the ventilation working out of the underlying formation, wells are carried out to the overlying formation and communicating with the supported channel and the bottomhole space of the upper lava, withdrawing the outgoing stream from the extraction section into the ventilation formation of the underlying formation through a supported channel and wells; moreover, the length of the supported channel should be at least twice the distance between the wells. Editor Compiled by M. Andreev Tehred M. Morgenthal t tdtos.2; Proofreader M. Samborska