矿业科学学报

Seismic diffraction detection method for geological hidden disasters in coal mining

Zhao Jingtao, Peng Suping, Chen Zongnan, Liu Qiannan

2022, 7(1): 1-8. doi: 10.19606/j.cnki.jmst.2022.01.001

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Abstract:
The geological hidden disaster-causing bodies such as small-scale faults and collapsed columns may destroy the continuity of the coal seam, which will lead to accidents such as gas outburst and water outburst in the air mining area, and seriously threaten the coal mining safety.Traditional seismic exploration methods are mainly involved with reflected waves that have a limited resolution and cannot effectively identify them.A multi-parameter sparse optimization diffraction separation method in the shot domain is proposed that is based on curvelet sparse transformation and plane-wave decomposition.It can solve the problem of diffraction separation in the interfering or tangency cases and the separated diffractions have a waveform consistency and integrity.The 3D numerical modeling and simulation test results show that the proposed method can effectively eliminate the shielding effect of strong reflections, separate the complete diffracted/scattered wave, and improve the imaging accuracy of fault edges and scattering points, where the imaging features of polarity reversal can be used to distinguish different types of small-scale geological structures.The field data of Shanxi Yang Erkuang coal mine confirmed that the proposed method can effectively remove the shielding effect of strong reflections from coal seam, and the hyperbolic forms of diffractions in the stacked profile can qualitatively control its reliability.For seismic diffraction interpretation, full-wave field imaging results are generally required to provide a macroscopic geological background and the diffraction imaging results are combined to reveal hidden disaster-induced geological bodies.The diffraction image of collapsed column boundaries and their insider characterization is clearer, and the exhibition of small-scale fractures is more powerful.It is a high-resolution imaging method and has a great potential in detecting hidden disaster geological bodies, which can provide a technical guarantee for coal mine safety and efficient mining in China.

Quantitative remote sensing-based monitoring and evaluation of the ecological environment in mining areas: technology framework and application

Li Jun, Peng Suping, Zhang Chengye, Yang Fei, Sang Xiao

2022, 7(1): 9-25, 88. doi: 10.19606/j.cnki.jmst.2022.01.002

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Abstract:
To practice the development concept of "lucid waters and lush mountains are invaluable assets", and balance mineral development and ecological environment protection, it is urgent to carry out dynamic monitoring and scientific evaluation of the ecological environment in mining areas.Based on the characteristics of the ecological environment in mining areas, this paper analyzes the temporal and spatial change characteristics and differences of the ecological environment elements in the mining area, the impact mechanism of the mining and restoration activities on the ecological environment elements, and the cooperative evolution law of each element.Guided by the requirements on ecological environment monitoring and evaluation in mining areas in the new era, a technology framework for quantitative remote sensing-based monitoring and evaluation of the ecological environment in mining areas is proposed from the perspective of 'data-monitoring-evaluation-application'.The framework makes full use of multi-source big data in mining areas with remote sensing images as the main body and takes advantage of the emerging technologies such as artificial intelligence and quantitative remote sensing.This research archives quantitative monitoring and evaluation of the ecological environment elements in the mining areas with the features of high frequency, large-extent, long-term, continuous, all-factor observation and quantitative inversion, which can support the operational applications including mining activity monitoring, ecological environment diagnosis and early warning and restoration effect evaluation in mining areas.Finally, two real-world cases are introduced to illustrate the effectiveness and application flow of the proposed framework.

Research on microseismic event imaging based on waveform clustering analysis

Li Dewei, Yang Ruizhao, Meng Lingbin

2022, 7(1): 26-33. doi: 10.19606/j.cnki.jmst.2022.01.003

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Abstract:
The quality of microseismic data greatly affects the accuracy of the source location results, especially in surface microseismic data where the first arrivals of P waves and S waves are not obvious or the low signal-to-noise ratio signals are difficult to identify.Secondly, due to the different focal mechanisms that induce microseismic, the signal characteristics received by different geophones are not the same.All of these factors have a certain impact on the accurate location of microseismic events.This paper proposes a method for selecting microseismic data based on cluster analysis to improve the imaging quality of microseismic event amplitude superposition locating.First, the Euclidean distance between the trace channels is calculated by cluster analysis, and the trace channels with larger and smaller distances are removed through the clustering graph, that is, trace channels with insignificant signal characteristics or severe noise interference are removed.Second, the cross-correlation calculation is performed on the signals of each channel, the trace channels with strong signal characteristic correlation being extracted, and those with unobvious P wave characteristics removed.Finally, the screened trace channels are superimposed and located with amplitude superposition.The comparison of the locating results with the original trace channels shows that the locating effect of the microseismic cluster analysis is more focused, the location of the focal point is clearer, and the locating results are significantly improved.

Fault activity and hydrocarbon accumulation significance of structural belt in northern Kuqa Depression

Zhao Guangjie, Li Xianqing, Liu Mancang, Dong Caiyuan, Li Jin, Liu Yang, Xiao Zhongyao

2022, 7(1): 34-44. doi: 10.19606/j.cnki.jmst.2022.01.004

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Abstract:
The tectonic belt in northern Kuqa Depression has a long period of fault activity and multi-stage superposition, which has an important influence on hydrocarbon accumulation.Through the combination of growth index profile method, typical profile elongation (or compression ratio) method and structural equilibrium profile method, the development characteristics, active periods and hydrocarbon accumulation significance of faults in the northern Kuqa Depression are studied.The results show that there are three types of faults in the northern Kuqa Depression: early thrust fault, late thrust fault and long-term active fault.There are five periods of fault activity, which are paleogene (E), Neogene Jidike Formation (N₁j), Kangcun Formation (N₁k), Kuqa Formation (N₂k) and Quaternary (Q) respectively.N₁j, N₁k and N₂k are the key periods of fault activity.The fault activity will lead to the thickening of the source rocks in the Kezilenuer Formation (J₂kz), which is conducive to the formation of multiple types of structural and lithologic traps.The fault active periods (N₁j, N₁k, N₂k) match well with the main hydrocarbon generation and expulsion periods (E, N₁j, N₁k, N₂k) of source rocks.The fault activity is beneficial to the formation and accumulation of oil and gas reservoir Yinan 2 and Tundong 2, but it also lead to the escape of oil and gas escape from Yinan 4 and Yishen 4 Wells, resulting in the destruction of reservoir forming and preservation conditions.The fingdings are of great significance to the analysis of hydrocarbon accumulation process in this area.

Evaluation of vertical sealability of Binhai-Gangxi fault in Qikou Sag Bohai Bay Basin

Zhang Yujian, Wang Yanbin

2022, 7(1): 45-54. doi: 10.19606/j.cnki.jmst.2022.01.005

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Abstract:
In order to accurately and quantitatively evaluate the vertical sealability of the fault, this paper, taking the Binhai-Gangxi fault in the Qikou Sag as an example, makes full use of relevant data such as drilling, logging, and 3D seismic as the basis to establish a lateral plugging coefficient of the geological model, calculate the lateral fault-reservoir displacement pressure difference of the fault, and couple the lateral plugging ability of drilling around the fault with the mudstone smearing method that characterizes the vertical plugging.It is calculated that the critical mudstone smear coefficient value of the fault is 6.2.Based on this quantitative evaluation, the vertical sealability of the Upper Paleozoic strata of the Binhai-Gangxi fault is obtained and verified.The results show that the upper Paleozoic of the Binhai-Gangxi fault has good vertical plugging properties as a whole, but the northwest section and the middle section have poor vertical plugging properties.The research results provide guidance and reference for oil and gas exploration in research area with complex structure background.

Analysis of low production coalbed methane wells and application of secondary reconstruction technologies

Li Yong, Hu Haitao, Wang Yanbin, Han Wenlong, Wu Xiang, Wu Peng, Liu Du

2022, 7(1): 55-70. doi: 10.19606/j.cnki.jmst.2022.01.006

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Abstract:
Most coalbed methane reservoirs in China are of low porosity, low permeability and with extensive structural coals, which is difficult to be reformed, resulting in low single well gas production and recovery rates.It is the the key target for the development of coalbed methane industry to choose high efficiency reservoir and well reconstruction technology to effectively improve low efficiency wells.This paper systematically dissects the reasons for low production under the influence of "geological reservoir conditions, engineering construction reforms and drainage management control", summarizes the related technologies and application effects of the secondary reconstruction of coalbed methane wells, and provides suggestions for targeted reforms of different types of low-efficiency wells.The secodary reconstructable low-yield factors in coalbed methane wells include insufficient fractures propagation, fractures/pipe coal fines blockage, and limited pressure drop area.During secondary reconstruction, the distribution of coal structure, primary fracture morphology, reservoir permeability, variations of gas and water production, and applicability of drainage equipment need to be considered.The secondary reconstruction technology covers physical, chemical, microbial, and other methods.Secondary hydraulic fracturing, indirect fracturing, and anhydrous fracturing in physical methods, as well as acidification and permeability increasing technology and foam acidification in chemical methods are widely used.In secondary reconstruction, the reservoir adaptability of the reconstruction technology should be analyzed based on the geological conditions, primary reconstruction results, engineering and drainage status, and the purpose of secondary reconstruction should be determined based on the engineering drainage situation.In the secondary reconstruction, re-damage of the reservoir should be avoided to achieve effective transformation and improve the coalbed methane production from single well and well patterns.

Characteristics and main controlling factors of the sweet spot reservoir in the first member of Lower Shihezi Formation of well J58 in Hangjinqi area, Ordos Basin

Hu Huidong, Li Xianqing, Chen Chunfang, Liu Yang, Zhang Boxiang

2022, 7(1): 71-81. doi: 10.19606/j.cnki.jmst.2022.01.007

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Abstract:
For a long time, the characteristics and main controlling factors of the sweet spot reservoir of tight sandstone gas in the first member of the Shihezi Formation in Hangjinqi area of Ordos Basin are not clear, which restricts the natural gas productivity in this area.Core observations, rock slice image, mercury intrusion experiments and logging data, etc.are used comprehensively to determine the petrological characteristics, reservoir physical properties, sedimentary facies and diagenesis of the tight and high-yield reservoir in the first member of the Lower Shihezi Formation in well J58 block of the Hangjinqi area, Ordos Basin.In-depth research was carried out to identify and classify the favorable sedimentary-diagenetic facies types of the first member of the Lower Shihezi Formation in the study area to establish the corresponding relationship between logging response characteristics and sedimentary diagenetic facies, and discuss the development law and main controlling factors of sedimentary microfacies controlled sweet spots in well J58 block.The results show that there are still many sweet spots in the reservoir of Hangjinqi area under the condition of compact rock formation.The lithology of high gas producing area is mainly litharenite and lithic quartzite, with large particles and good sorting.The original sedimentary environment is mainly braided stream delta with strong hydrodynamic force.Besides, dessert area is mainly controlled by sedimentary facies, and it is mainly developed in high-energy sedimentary facies and favorable diagenesis facies.The prediction and evaluation of dessert reservoir focus on the medium weak compaction debris dissolution diagenetic facies and high-energy beach sedimentary microfacies.

Line integral method for predicting surface subsidence in irregular working face mining

Teng Yongjia, Yan Yueguan, Guo Wei, Jiang Yan, Hu Yaodong

2022, 7(1): 82-88. doi: 10.19606/j.cnki.jmst.2022.01.008

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Abstract:
The subsidence prediction method is very important for predicting the negative impact induced by coal mining.Probability integral method is an important method for mining subsidence prediction, but for irregular working face mining, its prediction accuracy needs to be improved.Aiming at this problem, the Green formula was used in this paper to transform the formula of the probability integration method, and convert the integration of the working face to the line integration of the boundary of the mining area; the boundary of working face was simplified and divided into multiple straight line segments, and each straight line segment was integrated separately; the prediction of the movement and deformation of any point on the surface and the surface subsidence basin was completed through superposition calculation; finally, an application study was carried out based on a certain example, which verified effectiveness of the method in this paper.Compared with the result of the probability integration method, the prediction accuracy of the line integral proposed in this paper was improved by 23 %.

Astronomical forcing in Lopingian coal-bearing cycles: a case study of Bijie area in northwestern Guizhou

Gao Xiangyu, Shao Longyi, Wang Xuetian, Hua Fanghui, Lu Jing

2022, 7(1): 89-100. doi: 10.19606/j.cnki.jmst.2022.01.009

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Abstract:
To systematically study the sedimentary cycles and their astronomical forcing in the Lopingian coal-bearing series in Bijie area, northwestern Guizhou, the GR logging data from four boreholes in this area were analyzed and tested by using time series analysis and correlation coefficient method for the cyclostratigraphy analysis and astronomical testing.The cyclostratigraphy analysis results showed that the Lopingian coal-bearing series recorded the 405 kyr long eccentricity cycle, 125 kyr and 95 kyr short eccentricity cycle, and 40.6 kyr and 33 kyr obliquity cycle, and some 17 sedimentary cycles forced by 405 kyr long eccentricity cycle were identified.Astronomical testing results showed that the possibility of Lopingian coal-bearing series forced by astronomical periods is more than 99 %.According to the identified sedimentary cycles, and combining previous sequence subdivision results, a higher resolution sequence stratigraphic framework were established for the Lopingian in the study area, in which three third-order sequences and 17 fourth-order sequences were subdivided.At the same time, the precise age constrained by the tuned time scale was applied to establishing the astronomical time scale.A comprehensive analysis of sequence stratigraphic framework and the astronomical time scale showed that the deposition duration of the Lopingian was between 6.47 and 7.16 Myr, and there was a diachroneity of 0.69 Myr in the bottom part.In addition, the deposition duration of third-order sequence CSⅠ, CSⅡ and CSⅢ were 2.34 Myr, 1.98 Myr and 2.84 Myr, respectively.Finally, sedimentation rate variation of each third-order sequence was analyzed.The results showed that the average sedimentation rate of the Lopingian was between 2.91~4.11 cm/kyr, the sedimentation rate of CSⅠ displayed a change trend of "slow to fast" or "fast to slow and back to fast", the sedimentation rate of CSⅡ displayed a relatively stable state, and CSⅢ showed a cyclic trend of "fast-slow-fast-slow-fast".The established sequence stratigraphic framework can provide reference for high precision stratigraphic correlation of the Lopingian in Bijie, and at the same time, the established astronomical time scale can provide a high-resolution chronological framework for the study of the evolution of paleoclimate, paleo-environment and major historical events in the Lopingian.

Composition and origin of high-alumina coal in Jungar coalfield

Liu Linsong, Shi Songlin, Sun Junmin, Li Jintao, Wang Zhaoguo, Li Jiaxing, Liu Qinfu

2022, 7(1): 101-112. doi: 10.19606/j.cnki.jmst.2022.01.010

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Abstract:
Based on the analysis of tectonic background and coal-accumulating environment of Jungar coalfield, the coal petrological characteristics, inorganic mineral composition, distribution and occurrence regularity of coal and gangue in No.6 coal of the Junger coalfield are studied, and the genesis is determined byutilizing the research methods of coal petrology, mineralogy and geochemistry.The study shows that the average contents of the inertinite, vitrinite and exinite in the maceral of No.6 coal in the study area are 59 %, 28 % and 13 %, respectively.Compared with the Late Paleozoic coals in other areas of North China, the content of the inertinite is high, which reflects an adequate supply of surface water during the formation of No.6 coal seam.The main inorganic minerals in coal and gangue are kaolinite and boehmite, associated with quartz, calcite, siderite, pyrite, anhydrite, anatase and svanbergite.The vertical changes of the mineral composition and main chemical elements of No.6 coal indicate that the middle of the coal seam is rich in boehmite, while the upper and lower parts are rich in kaolinite.There are three origins of kaolinite: colloidal precipitation crystallization, terrestrial transport sedimentation and volcanic ash alteration.And there are two origins of boehmite: alumina colloidal precipitation crystallization and desilication alteration of kaolinite.

Fine detection of shallow coal mined-out areas by multichannel analysis of surface waves

Yang Zhi, Li Yü, Zhao Fei, Wei Hongxue, Guan Jianbo, Jin Chaobin, Zhao Meng

2022, 7(1): 113-122. doi: 10.19606/j.cnki.jmst.2022.01.011

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Abstract:
In order to finely detect the distribution range of shallow coal mined-out areas, a low-frequency focused factor is introduced into the phase shift method, and a low-frequency focused phase shift method is proposed, which has the advantage of extracting low-frequency dispersion energy on a short receivor array.The synthetic test results show that the low-frequency focused phase shift method significantly improves the focus of the dispersion energy at the low frequency, extends the range of frequency bands that can be picked up, and increases the detection depth.Meanwhile, the method shortens the spread length required to calculate the dispersion energy, ensuring that the MASW method has a high lateral resolution.The real data in the shallow coal mined-out area shows that using the low-frequency focused phase shift method in the dispersion energy extraction, the MASW method obtains high-precision horizontal slices of the shear wave velocity and identifies the extent of the mined-out area, the location of the security pillar and its geometry.It confirms the effectiveness of the low-frequency focused phase shift method to improve the lateral resolution of MASW and the feasibility to detect the shallow coal mined-out area finely.

Patterns of small fault with different placing depth in typical coal fields in southern China

Dai Shixin, Hu Pan, Dong Yanjiao, Xing Zhenhan, Li Xiang, Yang Fu

2022, 7(1): 123-133. doi: 10.19606/j.cnki.jmst.2022.01.012

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Abstract:
Small faults are an important factor that affects the safe and efficient mining of coal mines.In recent years, although great progress has been made in seismic wave identification methods for faults including small faults, it is still a difficult problem to identify small faults with a drop of less than 5 m in coalfield.Southern coalfields generally have complex topography and well-developed fault.In order to promote the seismic exploration of small faults in southern coal fields, this paper selects a typical southern coalfield—the Liupanshui coalfield in Guizhou Province as the study area.The coal-measure stratigraphic seismic physical model is established for seismic data acquisition, processing and interpretation, from the seismic wave kinematics and dynamics.The angle identifies small faults with a drop of 5 m, 3 m, and 1 m at different depths.The research results show that it is difficult to identify small faults with a drop of 1 to 5 m by using seismic wave kinematics method because coal seam is in a low-velocity layer on the surface.However, the application of dynamic method to extract multiple seismic attributes for analysis can find that the amplitude attributes are more sensitive to the identification of small faults, and the resolution ability is strong.Through the seismic physical model test, under the condition of the seismic source frequency of 60 kHz, the small faults with a drop of less than 5 m were successfully explained, and the results are consistent with the actual small faults of the coal-measure strata seismic physical model.

Research on the influence analysis of Radar traveling time tomography in mine and parameter optimization

Sun Minghao, Xu Xianlei, Zhang Di

2022, 7(1): 134-142. doi: 10.19606/j.cnki.jmst.2022.01.013

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Abstract:
Concealed hazard sources in the working face are the main hidden danger for safe production in the coal mines, and the Radar Travel Time Tomography technology can realize the high-precision detection of the concealed hazard source in the large-span working face.This paper puts forward an evaluation criteria for tomographic accuracy, including the evaluation indicators of variance of velocity difference between inversion velocity field and actual velocity field, deviation degree of the inversion center of the anomalous body, and deviation degree of the size of the anomalous body.Then the influence of radar traveling time tomography by point spacing, transmitting angle and inversion grid in mine is analyzed through forward modeling, resulting in the optimized parameters for observation system and inversion.Finally, the optimized parameters are employed to carry out some field verification experiments, and the results show that the anomalous body can be detected affectively for the working face within 100 m span, providing effective technical support for the rapid and precise detection of concealed hazard sources in large-span working face in mine area.

2022 Vol. 7, No. 1