Influence of magmatic rock intrusions on rock burst hazard of coal seams (in Russian)

Several natural threats characterize hard coal mining in Poland. The coexistence of methane and rock-burst hazards lowers the safety level during exploration. The most dangerous are high-energy bumps, which might cause rock-burst. Additionally, created during exploitation, safety pillars, which protect openings, might be the reason for the formation of so-called gas traps. In this part, rock mass is usually not disturbed and methane in seams that form the safety pillars is not dangerous as long as they remain intact. Nevertheless, during a rock-burst, a sudden methane outflow can occur. Preventing the existing hazards increases mining costs, and employing inadequate measures threatens the employees’ lives and limbs. Using two longwalls as examples, the authors discuss the consequences of the two natural hazards’ coexistence. In the area of longwall H-4 in seam 409/4, a rock-burst caused a release of approximately 545,000 cubic meters of methane into the excavations, which tripled methane concentration compared to the values from the period preceding the burst. In the second longwall (IV in seam 703/1), a bump was followed by a rock-burst, which reduced the amount of air flowing through the excavation by 30 percent compared to the airflow before, and methane release rose by 60 percent. The analyses presented in this article justify that research is needed to create and implement innovative methods of methane drainage from coal seams to capture methane more effectively at the stage of mining.

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Factors Influencing Rock Burst Hazard in Deep Copper Ore Mine, SW Poland

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/362/1/012023 ◽

2019 ◽

Vol 362 ◽

pp. 012023

Author(s):

Anna Barbara Gogolewska ◽

Jagoda Strzeszynska

Keyword(s):

Rock Burst ◽

Copper Ore ◽

Burst Hazard ◽

Factors Influencing ◽

Sw Poland

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New Criteria to Assess Seismic and Rock Burst Hazard in Coal Mines / Nowe Kryteria Dla Oceny Zagrożenia Sejsmicznego I Tąpaniami W Kopalniach Węgla Kamiennego

Archives of Mining Sciences ◽

10.1515/amsc-2015-0049 ◽

2015 ◽

Vol 60 (3) ◽

pp. 743-760 ◽

Cited By ~ 7

Author(s):

Grzegorz Mutke ◽

Józef Dubiński ◽

Adam Lurka

Keyword(s):

Rock Burst ◽

Longwall Mining ◽

Time Windows ◽

Coal Mines ◽

Seismic Energy ◽

Hard Coal ◽

Face Advance ◽

Mining System ◽

Burst Hazard ◽

New Criteria

Abstract The paper presents new criteria of seismic and rock burst hazard assessment in Polish hard coal mines where longwall mining system is common practice. The presented criteria are based on the results of continuous recording of seismic events and analysis of selected seismological parameters: spatial location of seismic event in relation to mining workings, seismic energy, seismic energy release per unit coal face advance, b-value of Gutenberg-Richter law, seismic energy index EI, seismic moment M0, weighted value of peak particle velocity PPVW. These parameters are determined in a moving daily time windows or time windows with fixed number of seismic tremors. Time changes of these parameters are then compared with mean value estimated in the analyzed area. This is the basis to indicate the zones of high seismic and rock burst hazard in specific moment in time during mining process. Additionally, the zones of high seismic and rock burst hazard are determined by utilization of passive seismic tomography method. All the calculated seismic parameters in moving time windows are used to quantify seismic and rock burst hazard by four level scales. In practice, assessment of seismic and rock burst hazard is used to make daily decision about using rock burst prevention activities and correction of further exploitation of monitored coal panel.

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An Approach to Dynamic Disaster Prevention in Strong Rock Burst Coal Seam under Multi-Aquifers: A Case Study of Tingnan Coal Mine

Energies ◽

10.3390/en14217287 ◽

2021 ◽

Vol 14 (21) ◽

pp. 7287

Author(s):

Xinxin Zhou ◽

Zhenhua Ouyang ◽

Ranran Zhou ◽

Zhenxing Ji ◽

Haiyang Yi ◽

...

Keyword(s):

Rock Burst ◽

Coal Mine ◽

Water Inrush ◽

Coal Seams ◽

High Position ◽

Integrated Method ◽

Working Face ◽

Strong Rock ◽

And Control

In order to prevent the multi-dynamic disasters induced by rock burst and roof water inrush in strong rock burst coal seams under multi-aquifers, such as is the case with the 207 working face in the Tingnan coal mine considered in this study, the exhibited characteristics of two types of dynamic disasters, namely rock burst and water inrush, were analyzed. Based on the lithology and predicted caving height of the roof, the contradiction between rock burst and water inrush was analyzed. In light of these analyses, an integrated method, roof pre-splitting at a high position and shattering at a low position, was proposed. According to the results of numerical modelling, pre-crack blasting at higher rock layers enables a cantilever roof cave in time, thereby reducing the risk of rock burst, and pre-crack blasting at underlying rock layers helps increase the crushing degree of the rock, which is beneficial for decreasing the caving height of rock layers above goaf, thereby preventing the occurrence of water inrush. Finally, the proposed method was applied in an engineering case, and the effectiveness of this method for prevention and control of multi-dynamics disasters was evaluated by field observations of the caving height of rock layers and micro-seismic monitoring. As a result, the proposed method works well integrally to prevent and control rock burst and water inrush.

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