Research on the Roof Advanced Breaking Position and Influences of Large Mining Height Working Face in Shallow Coal Seam

Huang, Qiongxiang; He, Yanpeng; Li, Feng

doi:10.3390/en13071685

Cited by 10 publications

(7 citation statements)

References 14 publications

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“…However, when the rate of advance is decelerated due to special reasons, secondary unloading will occur. For this reason, some scholars have proposed a time transfer factor KT [21][22][23][24][25], as given by the following:…”

Section: Theoretical Analysismentioning

confidence: 99%

Case Study on the Mechanism of Influence of Stoppage on Ground Pressure under Different Rates of Advance

Gao

Shi

Guo

2021

Advances in Civil Engineering

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Because of daily maintenance, equipment damage, gas overrun, and other force majeure factors, the continuous stopping of the working face causes the roof pressure to accumulate, which leads to causing accidents such as coal wall spalling and roof falling. To address the roof safety problem caused by continuous stoppages, the 620 working face in the Huangling mining area is taken as the research object. Through field measurement, theoretical analysis, numerical simulation, and other research methods, the influence and mechanism of stopping pressure under different rates of advance are studied. The results show that the velocity factor of roof load transfer is positively correlated with the advancing velocity of the working face; the reasonable length of the suspended roof is mainly affected by the number of caving holes and the effect of pressure relief; and comparing the two stages of advance speed of 4.8 m/d and 12.8 m/d, the periodic weighting step distance of the latter increases by 24.4% compared with the former, and the rate of increase of support load caused by stopping mining increases by 42.1% compared with the former. The roof pressure accumulation caused by stopping mining is increased. Taking appropriate measures for local forced caving of the working face can release the roof pressure and reduce the risk of local caving of the working face. The study can provide a theoretical basis for roof control of continuous stopping under similar engineering conditions.

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Section: Theoretical Analysismentioning

confidence: 99%

Case Study on the Mechanism of Influence of Stoppage on Ground Pressure under Different Rates of Advance

Gao

Shi

Guo

2021

Advances in Civil Engineering

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“…However, the coal seam thickness in the northwest mining areas in China is generally large and the geological structures, such as overlying strata are similar. 6,7 Therefore, it is urgent to study the sloughing mechanism and control of coal pillars in the thick coal seam, which provides the basis for underground safety production.…”

Section: Introductionmentioning

confidence: 99%

“…In the process of fully mechanized mining in large mining heights and thick coal seams, the stability of coal pillar and mechanism sloughing cause huge security risks to mine safety production, 3,4,5 transition supported to bring great economic burden to mine production. However, the coal seam thickness in the northwest mining areas in China is generally large and the geological structures, such as overlying strata are similar 6,7 . Therefore, it is urgent to study the sloughing mechanism and control of coal pillars in the thick coal seam, which provides the basis for underground safety production.…”

Section: Introductionmentioning

confidence: 99%

Analysis and control of the mechanism of coal pillar sloughing in the shallow buried thick coal seam

Zhang

Yang

et al. 2022

Energy Science & Engineering

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In northern Shaanxi province, the coal seam deposit conditions are generally characterized by large thickness and shallow depth of burial, the phenomenon of coal pillar sloughing is serious in the process of working face retrieval, which brings great potential danger to mine safety production. In this paper, by monitoring the stress and damage of the coal pillar in the field section, the stress changes and damage degree of the working face in different mine stages are determined. A new mechanical model of coal pillar in a thick coal seam is constructed and the stress changes and structural breakage law of each section are obtained, the stress transfers mechanism of overburden structure and the stress damage to coal pillar during the mining process of upper and lower section comprehensive mining working face is analyzed. The stress, microscopic damage, and the degree of sloughing in the coal pillar were significantly reduced by monitoring through the top plate hydraulic cracking pressure relief control program. The results of the study show that the extent of sloughing coal pillar and internal damage is closely related to the length of key block B of the masonry beam formed by the overlying rock layer and the position of the break line, by changing the orientation of the overlying masonry beam rock layer and the position and length of the tendency to break line, the sloughing coal pillar is effectively controlled and its stress and damage are reduced. We have achieved good results in control of the sloughing in the Hanjiawan coal mine and similar mines in northern Shaanxi.

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“…In recent years, many experts and scholars have studied the law of M GPA and overburden structure of the super-high working face. Huang et al [9] studied the roof advanced breaking position and influences of large mining height working face in the shallow coal seam. Their research results can provide early warn ing for safety problems related to the large height working face of the shallow coal seam, but there is still no clear conclusion for the existence of multip le key strata in overly ing strata [9].…”

Section: Introductionmentioning

confidence: 99%

“…Huang et al [9] studied the roof advanced breaking position and influences of large mining height working face in the shallow coal seam. Their research results can provide early warn ing for safety problems related to the large height working face of the shallow coal seam, but there is still no clear conclusion for the existence of multip le key strata in overly ing strata [9]. Ju et al [10] summarized the law of M GPA in different mining stages of the world's first 7 m supporting working face and concluded that the distance between a single key stratum and coal seam was the main factor affecting the mining pressure; but did not quantify the factor.…”

Section: Introductionmentioning

confidence: 99%

The Influence of Overburden Structure on Mine Ground Pressure Appearance in Working Face with Super-large Mining Height: a Case Study in Shendong Mining Area

Zhao

Ren

et al. 2021

IJE

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The Shendong mining area where is located in the northwest of China has the highest fully mechanized working face in the world. The purpose of this paper is to understand the causes of abnormal mine ground pressure appearance (MGPA) on the fully mechanized mining working face with super-large height in Shendong mining area. Field monitoring, physical similarity material test and UDEC numerical simulation were used to investigate the influencing factors of abnormal MGPA on the superlarge mining height working face. The results show that the simultaneous breaking movement of multiple key strata will transfer more load than that of a single key stratum, which intensifies the MGPA in working face. The distance between primary key stratum and coal seam determines MGPA, but this distance is limited to 115 m above the coal seam. The results of this study are of guiding significance to control the MGPA in Shendong mining area.

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Research on the Roof Advanced Breaking Position and Influences of Large Mining Height Working Face in Shallow Coal Seam

Cited by 10 publications

References 14 publications

Case Study on the Mechanism of Influence of Stoppage on Ground Pressure under Different Rates of Advance

Case Study on the Mechanism of Influence of Stoppage on Ground Pressure under Different Rates of Advance

Analysis and control of the mechanism of coal pillar sloughing in the shallow buried thick coal seam

The Influence of Overburden Structure on Mine Ground Pressure Appearance in Working Face with Super-large Mining Height: a Case Study in Shendong Mining Area

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