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METAMORPHIC MINERALIZATION OF COAL DEPOSIT:PRELIMINARY STUDY ON ITS POLYGENETIC COMPOUND ORIGIN
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《Geotectonica et Metallogenia》 1994年第Z2期112-113,共2页
关键词 ITS metamorphic MINERALIZATION OF coal DEPOSIT
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Research progress and prospects of coal petrology and coal quality in China 被引量:7
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作者 Yuegang Tang Ruiqing Li Shaoqing Wang 《International Journal of Coal Science & Technology》 EI 2020年第2期273-287,共15页
Clean utilization of coal depends on the quality of raw coal,which depends on the coal-forming parent materials(petrology and chemical composition of coal),the multiple media of the coal-forming environment,and some e... Clean utilization of coal depends on the quality of raw coal,which depends on the coal-forming parent materials(petrology and chemical composition of coal),the multiple media of the coal-forming environment,and some epigenetic conditions,such as thermal evolution(coalification),magmatic hydrothermal fluid,groundwater.Based on the research results of predecessors and prediction studies of coal resources since the founding of China,the present status of research on coal petrology,coal quality,coal metamorphism,and coal geochemistry in China is discussed in detail,with emphasis on research progress and the general situation of highly efficient and clean utilization of coal in the technical fields of coking,pyrolysis,combustion,gasification,and liquefaction,and the development prospects of coal petrology and coal quality in China are prospected. 展开更多
关键词 coal petrology coal quality coal metamorphism coal geochemistry Research status PROSPECT
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The pore-fracture system properties of coalbed methane reservoirs in the Panguan Syncline,Guizhou,China 被引量:5
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作者 Song Li Dazhen Tang +1 位作者 Hao Xu Zi Yang 《Geoscience Frontiers》 CAS 2012年第6期853-862,共10页
The Panguan Syncline contains abundant coal resources, which may be a potential source of coalbed methane. In order to evaluate the coalbed methane production potential in this area, we investi- gated the pore-fractur... The Panguan Syncline contains abundant coal resources, which may be a potential source of coalbed methane. In order to evaluate the coalbed methane production potential in this area, we investi- gated the pore-fracture system of coalbed methane reservoirs, and analyzed the gas sorption and seepage capacities by using various analytical methods, including scanning electron microscopy (SEM), optical microscopy, mercury-injection test, low-temperature N2 isotherm adsorption/desorption analyses, low- field nuclear magnetic resonance and methane isothermal adsorption measurements. The results show that the samples of the coal reservoirs in the Panguan Syncline have moderate gas sorption capacity. However, the coals in the study area have favorable seepage capacities, and are conductive for the coalbed methane production. The physical properties of the coalbed methane reservoirs in the Panguan Syncline are gener- ally controlled by coal metamorphism: the low rank coal usually has low methane sorption capacity and its pore and microfractures are poorly developed; while the medium rank coal has better methane sorption capacity, and its seepage pores and microfractures are well developed, which are sufficient for the coalbed methane's gathering and exploration. Therefore, the medium rank coals in the Panguan Syncline are the most prospective targets for the coalbed methane exploration and production. 展开更多
关键词 The Panguan Syncline Pore-fracture system Gas sorption capacity Seepage capacity coal metamorphism
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The influence of intensity and properties of tectonic stress on the process of coalification 被引量:1
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作者 WANG Zhi-rong JIANG Bo CHEN Ling-xia 《Journal of Coal Science & Engineering(China)》 2012年第2期158-162,共5页
Through the research on stress metamorphism character of the II1 coal seam in Ludian gliding structure, the stress effecting factors of metamorphism and hydrocarbon generation process of tectonic coal were studied. It... Through the research on stress metamorphism character of the II1 coal seam in Ludian gliding structure, the stress effecting factors of metamorphism and hydrocarbon generation process of tectonic coal were studied. It is shown that different tectonic stress has different coal evolution effects. Compared with tensional stress, compressive stress, which has apparent anisotropic characteristics, has greater stimulative effect against the increase of coal metamorphic degree, the abscission of functional group and side chains of basic structural unit, and the formation of gas primarily composed of methane. 展开更多
关键词 tectonic stress gliding structure coal metamorphism and hydrocarbon generation process gas geological hazards
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Genesis of Coal Metamorphism of Late PalaeozoicCoals in the South of North China——A Further Approach to the Effects of ThermalGroundwater on Coal Metamorphism
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作者 Zhong NingningJianghan Petroleum Institute, Shashi City, Hubei and Cao DaiyongBeijing Graduate School, China University of Mining and Technology, Beijing Jiang Minxi 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 1995年第2期183-195,共13页
The close relationship between the genesis of coal metamorphism and the evolution of the regional tectonic framework is expounded on the basis of an analysis of the geological factors causing the metamorphic zonation ... The close relationship between the genesis of coal metamorphism and the evolution of the regional tectonic framework is expounded on the basis of an analysis of the geological factors causing the metamorphic zonation of the Late Palaeozoic coals in southern North China; in terms of the mechanism for the formation of palaeogeothermal anomalies, the effects of thermal groundwater on coal metamorphism is highlighted and a geological model for thermal groundwater metamorphism of coal established; with the concept of the palaeogeotherm-coal metamorphism system, the genesis of coal metamorphism is analysed according to the distribution pattern of three geological factors: heat source, heat-carrier and channel, and heat-collector. 展开更多
关键词 coal metamorphism thermal evolution of organic mattern thermal groundwater palaeogeothermal anomaly palaeogeothermal-coal metamorphism system. Late Palaeozoic coal-bearing series
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Discovery of the largest natural carbon onions on Earth
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作者 Yilin CHEN Yong QIN +3 位作者 Jiuqing LI Zhuangfu LI Tianyu YANG Ergang LIAN 《Science China Earth Sciences》 SCIE EI CAS CSCD 2022年第9期1736-1750,共15页
The synthesis of carbon onions in the laboratory by various methods is common;however, naturally occurring carbon onions have only been found in a few geological samples on Earth. This study used high-resolution trans... The synthesis of carbon onions in the laboratory by various methods is common;however, naturally occurring carbon onions have only been found in a few geological samples on Earth. This study used high-resolution transmission electron microscopy to identify natural carbon onions in seven intrusion-affected coal samples collected from Permian coal-bearing strata in the Yongan Coalfield, Fujian Province, South China. This study identified the largest natural carbon onions ever recorded on Earth;their outer diameter was ~55 nm. Granite porphyry intrusions and quartz hydrothermal veins are abundant in the Permian coal-bearing strata in this coalfield. All samples collected were tectonically deformed coals with highly developed structural fractures, friction mirror planes, and maximum vitrinite reflectance values of 4.0–9.5%. Natural carbon onions observed in the coal samples had single or multiple cores, with 24–46 graphitic shells characterized by outer diameters of 24–55 nm. The maximum vitrinite reflectance, outer diameter, and graphitic shell number of carbon onions in the intrusion-affected coal were positively correlated, indicating that the carbon onions were secondary products formed during coal metamorphism owing to magmatic intrusion. Our results suggest that carbon onions in intrusion-affected coal are synthesized by chemical vapor deposition. We speculate that natural carbon onions exist mainly in fractures or cavities, similar to vapor-deposited pyrolytic carbon, which is the leading cause of the uneven distribution of carbon onions in intrusion-affected coals in the study area. 展开更多
关键词 Onion-like fullerenes Intrusion-affected coal Chemical vapor deposition HRTEM coal metamorphism
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