Study on Outburst Risk Prediction Sensitivity Indexes and Its Critical Value of the Stress-dominated Outburst Coal Seam

two roadways in adjacent working face of Baode Mine may have the risk of water inrush at the same time, so it is necessary to construct long borehole to cover the roadway excavation. On the basis of the hydrogeological conditions of the mine, the safe water insulation thickness and water inrush coefficient of coal seam No .8 are calculated. The results show that the water inrush coefficient is 0.035-0.037 MPa/m, which is less than the critical value 0.06 MPa/m and the bottom plate has no sudden water hazard. In the construction of No .10 coal seam, the directional long borehole is used to detect whether there is a hidden structure communicating with the floor limestone and to drain water. The test shows that there is no effluent phenomenon in the borehole, which proves that there is no hidden structure in No .10 coal seam.

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Study on factors influencing and the critical value of the drilling cuttings weight: an index for outburst risk prediction

Process Safety and Environmental Protection ◽

10.1016/j.psep.2020.05.027 ◽

2020 ◽

Vol 140 ◽

pp. 356-366 ◽

Cited By ~ 2

Author(s):

Chaojie Wang ◽

Xiaowei Li ◽

Changhang Xu ◽

Yue Niu ◽

Yujia Chen ◽

...

Keyword(s):

Risk Prediction ◽

Critical Value ◽

Factors Influencing

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Experimental Study on Deep Borehole Pre-Cracking Blasting of Drilling through Strata at Low Permeability Seam

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.868.339 ◽

2013 ◽

Vol 868 ◽

pp. 339-342

Author(s):

Jian Liu ◽

Qian Le

Keyword(s):

Coal Seam ◽

Control Area ◽

Low Permeability ◽

Gas Extraction ◽

Test Results ◽

Deep Borehole ◽

Coal Seam Gas ◽

Gas Concentration ◽

Working Face ◽

Outburst Coal Seam

In the process of roadway excavation in the low permeability outburst coal seam, with drilling through strata in the bottom drainage roadway extracting coal seam gas of control area. In order to improve extraction effect, the method that deep borehole pre-cracking blasting is used to increase the permeability of coal in the drilling through strata seam segment is proposed. The calculation formula on crushing circle and crack circle radius of deep borehole pre-cracking blasting are derived, and the effective loosening radius of blasting is calculated in theory, the research achievements are applied to field test, the test results show that deep borehole pre-cracking blasting permeability improvement technology is carried out in the drilling through strata of the low permeability outburst coal seam, the permeability of coal seam is improved by 180 times, the gas extraction scalar is raised by 8-10 tomes, during the process of roadway excavation, gas concentration of the working face is 0.2%-0.3%, and tunneling footage is increased by 2 times.

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Notice of Retraction: Study on technology of prevention outburst with uncovering coal rapidly in Cross-cut in severe Outburst Coal seam

2011 Second International Conference on Mechanic Automation and Control Engineering ◽

10.1109/mace.2011.5987519 ◽

2011 ◽

Author(s):

Hongyi Wang ◽

Zhanfeng Huang

Keyword(s):

Coal Seam ◽

Outburst Coal Seam

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Study on Methods of Exploring the Loosening Radius of Deep-Hole Controlling Blasting

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.734-737.650 ◽

2013 ◽

Vol 734-737 ◽

pp. 650-655

Author(s):

Wen Qing Zhang ◽

Jian Liu

Keyword(s):

Theoretical Analysis ◽

Coal Seam ◽

Gas Flow ◽

Critical Factor ◽

Field Investigation ◽

Flow Index ◽

Low Permeability ◽

Deep Hole ◽

Deep Borehole ◽

Outburst Coal Seam

Deep borehole controlling blasting is one of the most popular methods which used to improve permeability of low permeability and highly gassy coal seam. Proper interval between blasting hole is the critical factor. On this paper, the theory and insufficiency of each method are discussed by theoretical analysis and field investigation. The result shows that, because of the complexity of outburst coal seam, the measuring result got by different methods is relative and declinational. We need to make a right choice according to the actual demand. And the method of gas flow index is quickly, visual and reliable, which to be worth paying the utmost attention to.

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Theoretical Study and Numerical Simulation Research on the Effect of Coal-Rock Interface on Multistaged Fracturing in the Roof of Outburst Coal Seam

Shock and Vibration ◽

10.1155/2021/5529884 ◽

2021 ◽

Vol 2021 ◽

pp. 1-10

Author(s):

Fan Zhang ◽

Yang Tang

Keyword(s):

Elastic Modulus ◽

Coal Seam ◽

Hydraulic Fracture ◽

Mechanical Parameters ◽

Multiple Fractures ◽

Rock Stratum ◽

Gas Drainage ◽

Rock Interface ◽

Coal Rock ◽

Outburst Coal Seam

Multistaged fracturing in the roof of outburst coal seam is an efficient and creative technology for coalbed methane (CBM) drainage, which can effectively improve the permeability of coal seam. To reveal its mechanism of permeability enhancement, the effect of coal-rock interface on multistaged fracturing in the roof of outburst coal seam was simulated and discussed in this paper. Firstly, the lithological difference between outburst coal seam and roof was compared, and the concept and significance of multistaged fracturing in the roof of outburst coal seam were explained. Then, the mechanical conditions of multiple fractures in the roof traversing coal-rock interface were analyzed. The effects of mechanical parameters on multiple fractures were numerically simulated. The results indicated that fracturing borehole in adjacent rocks of outburst coal seam is much easier to drill and maintain gas drainage. Considering gas drainage efficiency and avoiding being blocked by coal fines, multistaged fracturing borehole is generally drilled in the stable rock stratum of roof. Whether the multiple fractures in the roof can traverse coal-rock interface is related to mechanical parameters of coal and rock, friction factor of coal-rock interface, angle between horizontal profile and coal-rock interface, cementing strength of coal-rock interface, minimum horizontal stress, and other factors. Higher fracturing fluid pressure contributes to propagating from the reservoir with low elastic modulus to the one with high elastic modulus for hydraulic fracture. Hydraulic fracture is more likely to propagate in the rock stratum with high brittleness index. The research results can improve multistaged fracturing theory and provide technological support for field test.

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Research and Application of Hydraulic Punching Pressure Relief Antireflection Mechanism in Deep “Three-Soft” Outburst Coal Seam

Shock and Vibration ◽

10.1155/2021/7241538 ◽

2021 ◽

Vol 2021 ◽

pp. 1-10

Author(s):

Beifang Gu ◽

Yanling Wu

Keyword(s):

Coal Seam ◽

Large Scale ◽

Water Pressure ◽

Pressure Relief ◽

Gas Drainage ◽

Technical Problems ◽

Soft Coal ◽

Coal Rock ◽

Outburst Coal Seam ◽

Soft Coal Seam

To solve the problems of gas predrainage in deep seams with “three softs” and low-air permeability, hydraulic punching pressure relief antireflection technology is proposed on the basis of the research background of gas predrainage technology in Lugou Mine to alleviate technical problems, such as low gas drainage efficiency, in this mine. Through the analysis of the mechanism of hydraulic punching and coal breaking, combined with FLAC3D software, a hydraulic punching pressure relief antireflection model is established. Then, the fracture radii of coal rock are simulated and calculated. The results show that, under hydraulic punching with a water pressure of 10 MPa and coal outputs of 3 m3, 6 m3, 9 m3, and 12 m3, the fracture radii of coal and rock are 3.4 m, 4.8 m, 5.5 m, and 5.9 m, respectively. Using the software to fit the relationship between coal output V and hydraulic punching fracture radius R under the same water pressure, R = 2.32479 V0.3839 is obtained. The field test is carried out in the bottom drainage roadway of 32141 in Lugou Mine. The application effect is as follows: the gas concentration of hydraulic punching with a coal output of 3 m3 is twice that of ordinary drilling, and the coal output of hydraulic punching with a coal output of 6 m3 is four times that of ordinary drilling. The extraction concentration is four times that of ordinary drilling, and the extraction concentration of hydraulic punching with a coal output of 9 m3 is 6.4 times that of ordinary drilling. Combining the results of the numerical simulation and taking into account the actual construction situation on site, the coal output of water jetting from the borehole is 9 m3, and the fracture radius is 5.5 m. This outcome means that the effective half radius is 5.5 m, and the borehole spacing is 7.7 m. These values are the construction parameters for large-scale applications. This proposal provides effective technology and equipment for gas drainage in the deep three-soft coal seam. Consequently, it has promotion and reference significance for gas drainage in coal seam of the same geological type.

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Stability Assessment of Deep Three-Soft Outburst Coal Seam Roof Based on Fuzzy Analytic Hierarchy Process

Shock and Vibration ◽

10.1155/2021/4328550 ◽

2021 ◽

Vol 2021 ◽

pp. 1-13

Author(s):

Qingling Meng ◽

Yanling Wu ◽

Minbo Zhang ◽

Zichao Wang ◽

Kejiang Lei

Keyword(s):

Coal Seam ◽

Analytic Hierarchy Process ◽

Evaluation Method ◽

Stability Assessment ◽

Analytic Hierarchy ◽

Soft Coal ◽

Outburst Coal Seam ◽

The Stability ◽

Soft Coal Seam ◽

Hierarchy Process

The stability of deep “three-soft” coal seam roof has always been a key issue in coal mining. There are a lot of factors affecting the stability of deep three-soft coal seam outburst roof. However, there is currently no definite method able to draw an accurate assessment conclusion on roof stability. In order to accurately determine the main influencing factors of the stability of deep three-soft coal seam outburst roof and reduce the loss of coal production, this paper performed three-soft coal seam risk identification on Lugou Mine based on the introduction of the fuzzy analytic hierarchy process theory. 23 main risk factors were identified. Then, it established a hierarchical structure model of coal seam roof stability in accordance with experts’ opinions. The analytic hierarchy process was used to calculate the weights of indicators at all levels. Next, the paper used the fuzzy comprehensive evaluation method and expert scoring to evaluate various risk factors in the indicator system, as well as the overall safety level. The results showed that the deep three-soft coal seam stability of Lugou Mine ranks the third hazard level. The main risk and harmful factors include safety awareness, safety monitoring system, roof weakness, ventilation system, fire-fighting system, and rock bolt quality. In response to the evaluation results, this paper formulated corresponding control measure in terms of ventilation risk, safety monitoring risks, construction personnel risks, and fire protection risk to reduce losses in the mining process, providing a new evaluation method for the stability assessment of deep outburst coal seam roof.

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Analysis of pressure relief and outburst prevention effect and mining depth effect of floor roadway in single serious outburst coal seam

E3S Web of Conferences ◽

10.1051/e3sconf/202126701051 ◽

2021 ◽

Vol 267 ◽

pp. 01051

Author(s):

Guohong Chen

Keyword(s):

Coal Seam ◽

Field Test ◽

Surrounding Rock ◽

Test Results ◽

Pressure Relief ◽

Depth Effect ◽

Mining Depth ◽

Geological Conditions ◽

Ground Stress ◽

Outburst Coal Seam

In order to solve the serious problem of single serious outburst coal seam gas disaster, based on the gas geological conditions of Jiangxi Fengcheng Qujiang company, theoretical analysis, numerical simulation, field test and other comprehensive research methods were used to analyze the partition fracture law of roadway surrounding rock under different mining depth conditions. The results show that: under the conditions of high ground stress, high temperature and other environmental conditions, the radius of pressure relief loose circle of surrounding rock of roadway is significantly increased, and it is significantly larger than that of shallow part. In the deep area of - 800m elevation, the distance between floor roadway and coal seam is optimized to be 12 ~ 15m. The field test results show that the original permeability coefficient of overlying coal seam of floor roadway increases by 55.74 times, and the pressure relief effect is good.

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