SU1114797A1 - Method for controlling burst-hazard in extracting coal - Google Patents

Abstract

METHOD OF CONTROL OF EMERGENCY IN THE EMERGING OF COAL, including drilling holes, interval measurement of the gas flow rate, determination of safe depth of excavation, characterized in that, in order to improve safety of working during coal mining by introducing out-of-danger control over the length of the hole, the system will build a hole in the hole, and the system will cut in the bottom of the hole. gas-velocity velocities on its walls determine the temperature, establish the temperature at a safe depth of the notch, and continuously measure the temperature on the freshly laid over for the performer: (П С ьм body of the excavation mechanism in the process of its advancement and at TTOJ LС J where - temperature of the freshly exposed surface of the coal seam, deg., vvg temperature of the coal mass at the safe depth of the excavation, hail, formation zone refer to si with sj

Description

one

The invention relates to mining and can be used in mining operations on formations prone to sudden outbursts of coal and gas.

There is a known method for determining the discharge zone, including drilling holes, measuring the temperature of shty samples taken at the end of the drilling interval, setting the boundary of the unloading zone according to temperature on the interval at which the rise in temperature of the shty is replaced by its lowering SP.

The disadvantage of this method is that it requires the drilling of a large number of holes, which is associated with an increased danger, since during the drilling of holes in outburst zones there are often sudden outbursts of coal and gas.

The closest to the proposed technical essence and the achieved effect is the method of determining the zone of discharge of the bottomhole part of the outburst formation, including drilling holes, interval measurement of the gas release rate, determination of the safe depth of the notch 12.

A disadvantage of the known method is that a large number of holes must be drilled over the entire length of the bottom to carry it out, since the measurements of the gas-bore gas velocity measurement along the hole allow us to estimate the value of the safe discharge zone only at the drilling site of this hole. In addition, the method does not allow the determination of the outburst hazard of the formation zone in continuity with the combine.

The purpose of the image is to increase the safety of work during coal extraction by controlling the outburst hazard along the length of the working floor.

The goal is achieved by the method, which includes drilling holes, interval measurement of the gas intake rate, determination of the safe depth of the notch, and simultaneously with interval interval measurement of the gas and gas velocity on its walls, determine the temperature, set the temperature at the safe depth of the notch

1147972

and continuously measure the temperature on the freshly exposed surface at the bottom of the executive body of the excavation mechanism during its production and at, i f-efrb

where is the temperature of the exposed surface of the coal seam, hail,

tg is the temperature of the coal mass at a safe depth of excavation, hail, the zone of the Reservoir is attributed to outburst hazard.

The method is as follows.

5 way.

In the direction of production advancement, one basic hole with a diameter of 42-43 mm is drilled by a standard rod.

0 At each drilling interval, the gas velocity is determined using a 11G-2MA flow meter and a ZG-1 gas outlet and a hole surface temperature using a K1T-c14 thermal sensor.

5 and electrometer ET-5.

According to the dynamics of the gas release rate, the safe depth of the excavation is determined, and by measuring the temperature corresponding to this depth, the critical temperature, then for a continuous monitoring of the operation of the excavation unit in the safe zone, the surface temperature of the freshly pressed gas is continuously determined.

J for the excavation unit (uninterrupted as it is moved along the bottom) and, if this temperature is higher than the critical one, the unit operates in the unloaded zone, and if below Q in an exhaust-hazardous area. If an outburst hazard zone is detected, the combine excavation is stopped. Determination of the temperature of a freshly laid slab is carried out or by a contact method using

5 thermal sensors, or remotely using an infrared (thermal) radiation receiver, the devices being assigned directly to the switched off unit, and the recording

Signals are automatically driven by the installation of an actuator in the electrical supply chain, which is triggered when critical temperatures are reached.

The advantage of the proposed method is that its use significantly reduces the time spent on controlling outburst hazards in mechanized clearing workings, and increases the safety of coal mining works on outburst-hazardous formations by reducing the volume of drilling of holes.

Claims (1)

METHOD FOR CONTROL OF EMISSION IN COAL EXTRACTION, including drilling of holes, interval measurement of gas evolution rate, determination of safe extraction depth, characterized in that, in order to increase the safety of operations during coal extraction by introducing emission control along the length of the mine bottom, in a hole simultaneously with interval measurement gas release rates on its walls determine the temperature, set the temperature at a safe depth of excavation and continuously measure g on a freshly exposed surface Aboyan for artist:. shearer body nm mechanism during its prodviganiya and ygr t _t where t _R0B - svezheobnazhennoy surface temperature of the coal seam face, hail coal at a safe temperature array depth of the recess, hail formation zone referred to outburst.