Coupled Effects of Moisture Content and Inherent Clay Minerals on the Cohesive Strength of Remodelled Coal

Zhang, Hongwei; Wan, Zhijun; Ma, Dan; Zhang, Bo; Zhou, Peng

doi:10.3390/en10081234

Cited by 10 publications

(9 citation statements)

References 27 publications

(35 reference statements)

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“…However, the cohesion of coal being reduced after the threshold moisture content was explained by the reduction of friction between adjacent coal particles. In addition to the similar trend, the ranges of cohesive strength and moisture content in this study are very close to those in the study conducted by Zhang et al (2017) [20], interestingly. Meanwhile, the effect of moisture content on the friction angle of the coal specimen was also studied (Figure 7b).…”

Section: Effect Of Moisture Content On the Strength Properties Of Coalsupporting

confidence: 91%

“…The effect of moisture content on the friction angle was much less pronounced than that on cohesion, interestingly. This finding agreed well with that of Zhang et al (2017) [20], as they concluded that the internal friction angle was almost independent of the moisture content. In conclusion, the moisture content of 22.58% was recommended as the optimum moisture content for further tasks (e.g., water injection time and field water injection).…”

Section: Effect Of Moisture Content On the Strength Properties Of Coalsupporting

confidence: 90%

“…This value decreased with a gradual increase in moisture content (22.58-29.5%), due to a reduction of the bonding effect (i.e., a coal particle is easy to detach with a high moisture content). A similar effect of moisture content on the value of cohesion has been observed in other materials, such as, soil examined by Huang et al (2012) [17], mudstone investigated by Liu and Zhu (2012) [18], and coal explored by Wang et al (2016) [19], remodeled coal studied by Zhang et al (2017) [20]. In the study by Huang et al (2012) [17], the value of cohesion increased as the moisture content varied in the range of 3.0-12.0% and then dropped rapidly after the peak due to an increase in moisture content (12.0-27.5%).…”

Section: Effect Of Moisture Content On the Strength Properties Of Coalsupporting

confidence: 71%

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Experimental Study on the Efficacy of Water Infusion for Underground Mining of a Coal Seam

Nguyen

Manh

2019

Applied Sciences

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The main purpose of this study is to evaluate the efficacy of the water infusion method for various coalfaces of a coal seam by an experimental study. First, laboratory tests were performed on several coal samples taken from actual coalfaces to determine the general characteristics, especially the strength properties, with respect to the moisture content and time. The results obtained from the laboratory were employed to evaluate the appropriate parameters (e.g., water injection time and the optimum moisture content) for water infusion works in the field. A field test was then performed in order to assess the efficacy of water infusion for underground mining. The spalling depth (i.e., longwall face failure of coal wall, involving the stability of underground mining coalfaces) and mining velocity (i.e., involving the cost-effectiveness of mining constructions) were monitored at various coalfaces for both case studies (i.e., with and without water infusion). Expectedly, the field test results revealed that the spalling depth decreased significantly, whereas the mining velocity sped up considerably, at coalfaces using water infusion compared to at those without using the water infusion method. In conclusion, the promising findings obtained from the field test reinforced the efficacy of water infusion for underground mining coalfaces.

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Section: Effect Of Moisture Content On the Strength Properties Of Coalsupporting

confidence: 91%

Section: Effect Of Moisture Content On the Strength Properties Of Coalsupporting

confidence: 90%

Section: Effect Of Moisture Content On the Strength Properties Of Coalsupporting

confidence: 71%

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Experimental Study on the Efficacy of Water Infusion for Underground Mining of a Coal Seam

Nguyen

Manh

2019

Applied Sciences

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“…However, within the other areas, the coal surface morphology shows high integrity and compactness. These indicate that the clay minerals promote the growth of internal fissures and the formation of flaky structures via interactions with water …”

Section: Discussionmentioning

confidence: 98%

“…As wetting‐drying cycles could induce mechanical property deterioration via the original defects in a rock, the effect of wetting‐drying on coal would be more complex because coal is a porous and low wettability material . In addition, there are usually various clay minerals inside coal mass, and so the water‐coal interaction does not merely involve soaking and water adsorption.…”

Section: Introductionmentioning

confidence: 99%

Influence of cyclic wetting‐drying on the mechanical strength characteristics of coal samples: A laboratory‐scale study

Chen

Jiang

Wang³

et al. 2019

Energy Science & Engineering

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Water‐coal interactions have gained much recent attention, although few studies focus on the strength of coal under wetting‐drying cycles. This study investigates changes in the microstructure and mechanical strength of coal that are induced by water‐coal interactions, at the macroscale and microscale. Fourteen specimens after continuous wetting and fourteen specimens after wetting‐drying cycles were tested, indicating that peak stress and elastic modulus decrease with increasing continuous wetting time and number of wetting‐drying cycles, while peak strain increases. We analyzed changes in the coal microstructure using a scanning electron microscope (SEM) and the Image Pro Plus 6.0 (IPP 6.0) software. The regression model for cyclic wetting‐drying reveals that porosity and pore circularity are the main correlation indicators associated with uniaxial compressive strength. Therefore, different numbers of wetting‐drying cycles could induce different degrees of damage to coal, which increases progressively through gradual changes to its microstructure. These findings indicate that wetting‐drying cycles have a more significant impact on the stability of coal mass than continuous wetting. Our results are of use in determining the size of coal pillars, and expanding the knowledge base related to the mechanical properties of coal mass, water bursting, water recharge channels, and the stress‐crack‐permeability evolution law in mines.

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Effects of water content on mechanical failure behaviors of coal samples

Tang

Yao

Chen

et al. 2022

Geomech. Geophys. Geo-energ. Geo-resour.

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Coupled Effects of Moisture Content and Inherent Clay Minerals on the Cohesive Strength of Remodelled Coal

Cited by 10 publications

References 27 publications

Experimental Study on the Efficacy of Water Infusion for Underground Mining of a Coal Seam

Experimental Study on the Efficacy of Water Infusion for Underground Mining of a Coal Seam

Influence of cyclic wetting‐drying on the mechanical strength characteristics of coal samples: A laboratory‐scale study

Effects of water content on mechanical failure behaviors of coal samples

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