SU1694898A1 - Method for mining formations of outburst-prone combustible mineral seams - Google Patents

Description

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(21) 4781776/03

(22) 12/08/89

(46) 11.30.91. Bulletin No. 44

(71) Moscow Mining Institute

(72) A.S. Brodt, A.S.Burchakov, L.A. Puchkov and I.I. Sharovar

(53) 622.271 (088.8)

(56) Burchakov A.S. and others. Technologists of underground mining of stratum mineral deposits. M .: Nedra, 1983, p. 247-251.

Kirichenko I.P. Chemical methods of mining. Moscow: USSR Academy of Sciences, 1958, p.80-81.

(54) METHOD FOR DEVELOPING THE COMBINATION OF COMBINED AND SHOCK-FREE PLASTES OF COMBUSTIBLE

(57) The invention relates to mining and makes it possible to increase the safety of mining of the formations suite (P), to intensify their degassing. The development of a suite of gently sloping ejection-and shock-hazardous Ps begins with the underground gasification of the lower working P. As the P gasifies, they work the overlying stratum of rocks and form a cave in it. Upon completion of gasification, P start the degassing of the field. To do this, drain degassing wells are pumped into the body of the collapsed undermined massif and the methane is pumped out with vacuum pumps. At the end of the degassing of the field, they proceed to the opening of the suite P. Then they prepare and clean the conditioned reserves. Substandard reserves, operational losses, and also pillars are subjected to underground combustion and utilize the heat of combustion products. 1 hp f-ly.

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The invention relates to mining and can be used in the underground mining of combustible minerals.

The purpose of the invention is to increase the safety of mining the formations and intensify their degassing.

The method is carried out as follows.

The development of a suite of gentle vibration and shock-hazardous formations, characterized by a total capacity of up to 100 m, begins with underground gasification of the lower working formation or satellite formation. To do this, vertical wells are drilled from the surface to the gasifying reservoir, followed by supplying oxygen blowing to the gasification center and withdrawing gasification products.

As gasification progresses, the overlying stratum of rocks is formed, where a fracture connection is established between the individual layers of the suite, the stress state of the entire array is removed and loosened, which leads to the formation of a collapse arch, resulting in favorable conditions for methane drainage and accumulation parts of the destroyed array.

Upon completion of gasification of the lower reservoir, the field is degassed. For this, the degassing wells are drilled into the arch of the collapsed underworked massif, or previously drilled ones are used, followed by methane pumping out of them by vacuum pumps.

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Thus, preliminary gasification of the lower seam of the suite achieves effective regional degassing and geomechanical unloading of the whole massif, as a result, the whole complex of subsequent mining works on the opening, preparation and clearing of the mine floor reserves is unobstructed with guaranteed safe working conditions.

At the end of the degassing process, the suite is opened, then preparatory workings are carried out, followed by clearing the conditioned reserves.

 Subconditioned reserves, operational losses of coal in waste formations, pillars, and carbonaceous matter scattered in the host rocks at the last stage are subjected to underground combustion using previously drilled at the stage of underground gasification of wells and heat recovery of combustion products. In this case, a suction scheme is used to supply the oxidant to the combustion site.

The invention allows to achieve a more complete degassing of the field and to improve the safety of underground mining, especially at great depths, at which the use of other regional methods to prevent gas-dynamic phenomena and rock bursts is ineffective,

Claims (2)

1. A method of developing a suite of outburst and shock-hazardous fossil-bearing layers, including unloading the suite, the layers by working out its lower layer, indicated by the gasification of the lower layer, in order to prevent gas-dynamic phenomena, rock bursts and intensify the degassing of the field. with subsequent degassing of the suite, and testing of the unloaded suite of layers is carried out after its degassing. 2. A method according to claim 1, characterized in that the remaining fossil fuel in the spent formations is burnt.