RU1776814C - Method for control of gas-dynamic effects - Google Patents

Abstract

Fans of wells are drilled out of the hole, they are divided into groups with lower and increased gas evolution. From the first group of wells, the formation is hydrotreated, and from the second, degassing is performed, while initially they are degassed through the wells oriented normally to the gas-conducting fracture system.

Description

The invention relates to the mining industry and can be used when conducting workings in formations dangerous for rock impacts and sudden emissions.

There is a known method of dealing with gas-dynamic phenomena during production workings, including drilling bottom-hole and barrier wells, carrying out work on hydrotesting and degassing the formation. In this case, the barrier wells are drilled from niches and the surface of the formation is shotcrete with a gas-permeable material.

The disadvantages of this method are the low degassing efficiency and the complexity of work on cutting niches, drilling long barrier wells and isolating the formation.

A known method of dealing with gas-dynamic phenomena, including drilling in the near-bottom part of a coal seam of wells, its degassing and subsequent hydro-extraction. The method is adopted as a prototype. The disadvantages of the method are associated with low degassing efficiency and the many laborious operations of drilling wells.

The aim of the invention is to increase the degassing efficiency by eliminating the multiplicity of drilling operations.

This goal is achieved by the fact that the wells are drilled with a fan, they determine the gas release value in them, they reveal the system of cracks with the highest gas permeability, determine the elements of its occurrence, and then they are subjected to hydro-extraction through the wells with a gas evolution value not exceeding 5 l / min, and degassing is carried out through the wells with a GCE value equal to or more than 5 l / min, and the formation is initially degassed through wells oriented perpendicular to the extension of the identified fracture system.

The invention is carried out as follows. When carrying out preparatory development on an outburst-hazardous formation, wells are drilled from its inlet by a fan.

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During drilling in each well, the gas release value, the occurrence elements of the fracture systems are determined and the fracture system with the highest gas permeability is detected.

Wells in which gas evolution is equal to or greater than 5 l / min are connected to a vacuum gas pipeline, and from wells in which gas evolution does not exceed 5 l / min, hydro-extraction is carried out. After this, formation degassing operations are performed. In this case, the formation 1 is initially degassed through wells oriented perpendicular to the plane of the strike system of cracks with the highest gas permeability. Then degass the reservoir through the remaining wells. After complete degassing, a preparatory development is carried out on the treated area of the formation,

Claims (1)

SUMMARY OF THE INVENTION A method for combating gas-dynamic phenomena, including drilling in a near-bottom part of a coal seam of a well, its degassing and subsequent hydro-extraction, characterized in that, in order to increase the efficiency of combating gas-dynamic phenomena by eliminating the multiplicity of drilling operations, the wells are drilled four, determine the gas release values in them, identify the system of cracks with the highest gas permeability value, determine the elements of its occurrence, and then hydrospin through the wells with known cheniem gas evolution, not exceeding 5 l / min, and is produced through the degassing hole gas evolution with a value equal to or more than 5 liters / min, the initially degassed formation through the well oriented perpendicularly strike detection system of cracks.