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2024 Vol. 9, No. 1

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Cover Articles

Treatment and utilization of coal mine water based on "deep ground-underground-surface ground" linkage system
ZHANG Chunhui, ZHAO Guifeng, SU Peidong, XIAO Nan, ZHANG Yizhen, SHEN Zhelin
2024, 9(1): 1-12. doi: 10.19606/j.cnki.jmst.2024.01.001
Abstract(338) HTML (94) PDF(171)
Abstract:
The highly-efficient treatment of coal mine water with low energy consumption contributes to much safer and more efficient coal mining. At present, mine water processing at underground is still limited for its small treatment water yield, large land coverage and high operation cost in ground treatment, high drainage costs when mine water is discharged into the surface water system. In this light, this study puts forward the "deep ground-underground-surface ground" linkage system for mine water treatment and utilization. The treated mine water is partially used for mining production and residential usage, while the rest is subject to deep reinjection or drainage. This paper first introduces the operational mechanism behind this system, and then evaluates its validity in terms of water quality, water quantity, hydrogeology, underground structure, and feasibility of recharge engineering. This study then reviews existing mine water treatment methods for varying water qualities and the "underground-surface" joint treatment system; Also, a summary is drawn regarding the selection of aquifer for reinjection purposes, reinjection construction operations, reinjection tests, simulation of reinjection water quality, and analysis of reinjection safety.
Comparative study on evaluation methods of accurate acid production potential of coal gangue
SUN Hongfu, YIN Xiangcheng, SUN Lang, ZHAO Fenghua, ZHU Menghao, FAN Ziyi
2024, 9(1): 13-21. doi: 10.19606/j.cnki.jmst.2024.01.002
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In order to prevent major acid drainage pollution accidents, this study aims to improve the accuracy of acid production potential evaluation of mine rocks in the prediction of acid drainage. Specifically, this paper introduced existing calculation methods of acid-producing potential, and then determined the acid-producing mineral contents in some sulfur minerals and coal gangue samples by three-step sequential extraction method, which is then compared with the traditional method of calculating the maximum acid-producing potential by measuring total sulfur. Results show that: 1) the acid-producing potential of coal gangue is dependent on the mass percentage content of each acid-producing sulfur and the corresponding unit acid value; 2) except for sample SC, the acid-producing potential calculated by acid-producing sulfur content is lower than(with different degrees) the acid-producing potential predicted by total sulfur. The sulfur in the sample SC is mainly arsenopyrite sulfur, which has a higher acid value per unit than pyrite sulfur, resulting in a higher acid potential calculated by SC sample than predicted by total sulfur; 3) the three-step sequential extraction is suitable for samples with iron and copper sulfides as the main sulfur minerals; 4) when other sulfide components increase and blank samples are unevenly mixed, the results will be disturbed to some extent. This research provides evidences to justify the evaluation of accurate acid production potential of coal gangue in mining area.
Evaluation index of bursting liability of coal based on energy transfer efficiency
ZHAO Yang, HOU Yukun, TANG Tiewu
2024, 9(1): 22-31. doi: 10.19606/j.cnki.jmst.2024.01.003
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Abstract:
The accumulation and release of energy in coal are closely linked to rock burst, with energy transfer being a key parameter for evaluating bursting liability. This study constructs an energy transfer model under energy source disturbance conditions, where we establish a relationship between impact energy index and elastic energy index, propose the proportion of energy φ, introduce the concept of energy transfer efficiency β based on an energy dissipation model during the transfer process, develop an evaluation method for bursting liability by multiplying two efficiency parameters η=βφ. We conducted experiments to identify bursting liability of 11 coal layers from 3 pairs of coal mines, whose reliability was verified by referencing results from 79 layered impact tendency identifications in other coal mines. Results show that 1)the proportion of energy release φ has boundary conditions with physical significance for ground pressure; 2)there is negative correlation between the efficiency β and Poisson's ratio which can model boundary conditions; 3)calculation results of the energy transfer index η show high consistency(88.61 %)with bursting liability identification results, reflecting the bursting liability of coal bodies. It can serve as a basis for evaluating "*" outcomes and is an effective indicator suitable for existing systems used to evaluate bursting liability.
Optimized design of construction parameters for submerged water jet breaking construction based on response surface analysis
QIU Yueqin, LAN Xiongdong, LIU Jian, WANG Guanshi, LUO Sihai
2024, 9(1): 32-41. doi: 10.19606/j.cnki.jmst.2024.01.004
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Abstract:
This study proposes a finite element model for submerged water jet excavation using a cylindrical nozzle with an aim to determine the depth and diameter of jet orifices during water jet excavation. The model's accuracy was verified through indoor experiments, employing the Lagrangian-Eulerian fluid-solid coupling algorithm. The response surface method was utilized to establish a predictive model for the depth and diameter of jet orifices, which includes the impact of nozzle diameter, jet standoff distance, jet pressure, and their interactions. The construction parameters for jet excavation were optimized using a satisfaction function. Results indicated that for excavation depths of 10 cm, 15 cm, and 20 cm, keeping the stability of the jet orifices to the maximum required higher jet pressure(7.2 MPa), smaller jet standoff distance(1 cm), and an appropriate nozzle diameter(0.928 mm, 1.164 mm, and 1.345 mm). After optimization, the predicted values of jet orifice depth and diameter for the specific target excavation depths showed an error of less than 15 % compared to the experimental values, demonstrating the credibility and reliability of the predictions.
Study on the dynamic fracture characteristics of red sandstone composite under stress waves
XIE Beijing, LI Xiaoxu, LUAN Zheng, CHEN Siyu, CHEN Mingjin, LIANG Tianyu
2024, 9(1): 42-52. doi: 10.19606/j.cnki.jmst.2024.01.005
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Abstract:
To investigate the composite dynamic fracture characteristics of red sandstone under the action of stress waves, the impact loading experiment was carried out by using separated Hopkinson press bar, digital image technology and on the three-point bending specimen of semicircular disc with prefabricated cracks, to analyse the effects of loading rate and wavelength on the dynamic tensile and fracture characteristics of red sandstone. The results show that: ①the loading rate of red sandstone specimens has a primary function relationship with the dynamic tensile strength, fracture toughness and damage rate; the fracture energy increases by 415.27 % with the increase of loading rate. ②With the increase of wavelength, the dynamic tensile strength increased by 742.14 %, of which the fracture energy increased by 54.49 %, but the energy absorption rate showed a decreasing trend; the average speed of crack expansion increased by 4.09 %, and there is a hysteresis phenomenon in the time of strain growth of the first and last cracks; the effect of growth of the damage rate was strengthened. ③The strain at the first and last monitoring points of the main crack of the specimen increased by 84.31 % on average when the impact velocity was 8m/s.
Comparative study on control effect of deep roadway under full-length prestressed bolt-grouting support
WANG Hongtao, GAO Guanglong, ZHANG Hongjun, LI Jianjian, XIE Xuelei, ZHAO Wanli
2024, 9(1): 53-65. doi: 10.19606/j.cnki.jmst.2024.01.006
Abstract(167) HTML (31) PDF(81)
Abstract:
This study proposed the numerical simulation method of full-length prestressed anchor grouting support based on the post-grouting technology, and the modification of the embedded PILE structural unit in FLAC3D software. Specifically, we conducted the numerical simulation and made comparison in terms of the control effect of roadway surrounding rock under six types of factors: ground stress, strength grade of original rock, length of supporting members, layout spacing, grouting strengthening index and prestress, with the aim to reveal how these factors affect the deformation of surrounding rock and the evolution of plastic zone. Then, we proposed the sensitivity evaluation index of control effect under full-length prestressed anchor grouting support. The influencing factors are divided into 3 levels: strength of surrounding rock, ground stress and design of bolt-grouting support members. Suggestions for engineering are also given according to the sensitivity level of each factor. Finally, the combined high-strength grouting bolt and high-strength hollow grouting cable are developed based on a typical roadway in weak broken strata. It can effectively enhance the self-carrying capacity of weak broken surrounding rock, give full play to the supporting potential of anchoring members, and limit the deformation and failure of roadway surrounding rock. Through the field application, the full-length prestressed bolt-grouting support is verified.
Study on the effect of penetration enhancement and energy change of coal samples pretreated with different microwave powers
QI Xiaohan, WANG Pin, HOU Shuangrong, LIU Yang, ZHU Tongguang
2024, 9(1): 66-76. doi: 10.19606/j.cnki.jmst.2024.01.007
Abstract(88) HTML (18) PDF(45)
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In order to investigate permeability and destructive deformation energy evolution of the loaded coal body under different power microwaves, the high-pressure three-dimensional visual mechanics experimental equipment to carry out the triaxial compressive percolation experiments of the coal samples after microwave pretreatment with different power. Results show that the modulus of elasticity of coal samples after microwave treatment with different powers shows a decreasing and then increasing trend, while the peak stress and Poisson's ratio show a decreasing trend; the increase of microwave power leads to easier compact of coal samples, larger overall strain values of radial and body stress-strain curves, and significant expansion; the permeability of the coal samples increases as power rises, which is consistent with the logarithmic function fitting relationship; the increase of microwave power leads to decreasing total energy U and elastic energy Ue at the peak stress of different pretreated coal samples, and the ability of coal samples to accumulate elastic energy Ue in the elastic stage is weakened. When we compare 200 W and 600 W microwave pretreatment under the same irradiation time, it is found that the change of each energy was more significant in 400 W microwave pretreatment, and the coal samples have the smallest dissipated energy Ud as a proportion of total energy U, at 24%. The study could provide references for gas extraction in microwave fracturing coal seams.
Evaluation of reclamation in Hequ open-pit coal mine dump: soil fertility restoration model
ZHAO Hongbao, LI Yue, ZHANG Hongwei, LIU Shaoqiang
2024, 9(1): 77-87. doi: 10.19606/j.cnki.jmst.2024.01.008
Abstract(85) HTML (21) PDF(42)
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This study established a comprehensive evaluation model for soil fertility in an open-pit coal mine dump in Jiuxian County of Hequ by drawing on Fuzzy Analytic Hierarchy Process (FAHP) and expert scoring theory. 4 criteria and 25 factors were applied for soil structural stability, water retention capacity, fertility retention capacity, and biological activity. Using the YAAHP calculation software, this study proposed the weights of various influencing factors on the soil fertility restoration ability of the waste dump. The results indicate that soil fertility retention ability bears the highest weight (0.547 7), followed by soil water retention ability (0.198 0), soil biological activity (0.140 8), and soil structural stability (0.113 5) in the evaluation rubric, while organic matter F1 bears the highest weight (0.116 2) among other factors; Based on on-site sampling, results showed that the soil quality in the reclaimed area outperformed the uncultivated area, but still persists at lower to medium levels. The main factor for soil resilience is soil fertility retention capacity, especially the content of soil organic matter. Soil fertility restoration model offers references for improving soil quality in waste dump, accelerating soil reconstruction, and promoting soil ecosystem restoration.
Simulation of flow field in low-resistance Venturi vibrating wire grid dust removal system
ZHOU Ziyi, CHEN Zuyun, LIU Lixin, ZHONG Fangquan, GUO Yumin, ZHANG Jimin, LUO Binglin, LAI Zhaoqi
2024, 9(1): 88-97. doi: 10.19606/j.cnki.jmst.2024.01.009
Abstract(74) HTML (26) PDF(49)
Abstract:
The distribution of the flow field in the dust collector significantly affects its performance. The uniform distribution of the flow field is conducive to the dust reduction of the system, thus it requires the use of simulation software to simulate and analyze the flow field distribution of the dust removal system. This study used Fluent to simulate the flow field distribution of gaseous single-phase flow, gas-solid two-phase flow and gas-solid-liquid three-phase flow to investigate the effect of droplet particles on the flow field of the dust removal system, and the effect of droplet particles on the dust removal performance. Results show that the dust particles exerts minimal impact on the system flow field; the structure of the dust collector is found to be the major factor affecting the system flow field; the presence of droplets will increase the dust removal efficiency of the system; after the droplet particles are added, the dust movement disorder is enhanced, and the collision effect with the droplets is strengthened, which promotes the condensation of fine dust, improve the dust removal efficiency, but at the same time affects the stability of the system flow field and increases the resistance loss of the system.
Study on Separation characteristics of dense medium cyclone for raw coal with high density fraction contents
ZHAO Long, ZHU Xueshuai, WEI Lubi, WANG Baoqiang, CHEN Jiangtao, WU Bingbin, GUAN Changping
2024, 9(1): 98-105. doi: 10.19606/j.cnki.jmst.2024.01.010
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This study attempts to enhance the separation efficiency of dense media cyclone for raw coal feed with difficult-to-cleaning and large high-density component content. Specifically, this paper 1) designed a novel heavy media cyclone model device, 2) established a mathematical model of sedimentation separation of particles in the centrifugal rotating flow field, 3) investigated the separation characteristics of the new dense media cyclone by combining experimental research and theoretical analysis, which revealed the separation variation patterns of raw coal difficult to select with high content heavy density components under different process parameters, 4) explored the factors affecting the dynamic stability of the working suspension in the flow field of the new heavy media cyclone and the discharge and transportation mechanism of heavy products. Results show that when the new dense media cyclone separates raw coal with high content of heavy density components, underflow heavy products exhibit stronger discharge capacity and higher processing capacity, while the centrifugal swirl field shows smaller density gradient distribution of suspension, more uniform density distribution, lower value of the difference between the underflow and the overflow density, as well as stronger stability of the suspension in the flow field. The feeding pressure is directly correlated with the dynamic stability of the suspension, separation accuracy and the discharge efficiency of heavy products. With increasing feeding pressure, the suspension discharged from the underflow and overflow port shows increased density difference, reduced possible deviation E value, improved separation accuracy and elevated amount of heavy product discharged. When the feeding pressure is 25 kPa, the actual separation density is 1.666 g/cm3, the possible deviation E value is 0.09 g/cm3, and the yield of heavy products is 75.23%, which provides new insights into the separation of raw coal with high content, heavy density components.
Research on evaluation and promotion strategy of data governance capability for intelligent coal mines
WANG Meijun, TAN Zhanglu, LI Huiyuan, LÜ Hanbing
2024, 9(1): 106-115. doi: 10.19606/j.cnki.jmst.2024.01.011
Abstract(89) HTML (45) PDF(44)
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Data governance capability is fundamental to coal mine intelligence construction. It could accelerate the intelligent construction of coal mines and promote the digital transformation of the coal industry so as to building a modern energy system in digital China. This paper therefore discusses the theory and methods of improving data governance capability for intelligent coal mines. Specifically, this study analyzes its strategic demands of intelligent coal mine construction on data governance and offers a working definition for data governance capability for intelligent coal mines. Then an evaluative system is proposed for the evaluation of data governance capability for intelligent coal mines. Further, by drawing on capability maturity theory, this study establishes a maturity model that specifies the improvement path of data governance capability for intelligent coal mines. Finally, based on the PDCA cycle theory, this paper puts forward strategies for improving data governance capability for intelligent coal mines, in order to 1)supplement existing theories of data governance capability enhancement, and 2)provide references for future practices of data governance.
Capture accounting and emission reduction of methane in the whole life cycle of underground coal mine
YUAN Baiyun, YUE Zongyao, GAO Baobin, LI Bingbing, JIA Tianrang
2024, 9(1): 116-125. doi: 10.19606/j.cnki.jmst.2024.01.012
Abstract(104) HTML (27) PDF(42)
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Methane emission reduction is crucial to realizing China's carbon emission reduction goals, where a methane capture accounting system is the prerequisite. With the aim to realize near-zero methane emissions, we thereby propose a specific accounting model for methane capture in the whole life cycle of underground coal mines from geological exploration, coal mining to post-mine activities and coal mine discarding by drawing on the "National Greenhouse Gas Inventory Guidelines: IPCC-2019" and the national standards for accounting for greenhouse gas emissions of coal enterprises. In particular, we propose methods for methane emission reduction and discuss detailed plan for its implementation. The study could offer references for methane control and low-carbon development in underground coal mines.
Optimizing the performance appraisal system of coal enterprises in the context of"dual carbon"
QI Peng, SUN Xiaoru
2024, 9(1): 126-134. doi: 10.19606/j.cnki.jmst.2024.01.013
Abstract(158) HTML (52) PDF(52)
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Performance appraisal is an important means to assess employees' work performance. It serves to enhance the production competence of frontline employees through feedback in order to promote green and low-carbon development of coal enterprises. The current performance appraisal system of coal enterprises is still limited as it is mostly result-oriented, overlooking assessment on environmental protection, individual skills and learning capabilities. In this light, this study adopts the key performance indicators(KPI)method and analytic hierarchy process(AHP)in optimizing the present indicators in the performance appraisal system to highlight the "dual carbon" objective. Specifically, this study proposes environmental indicators as part of the new performance appraisal system, and suggests detailed measures to ensure its implementation.

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