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1.
山西宁武煤田大同组植物群特征 总被引:1,自引:0,他引:1
山西宁武煤田大同组植物化石笔者鉴定计21属41种,以真蕨类,银杏类为主,有节类,柏柏类次之,苏铁类稀少。该植物群可归于北方普遍发育的Coniopteris-Phoenicopsis植物群,并可与大同煤田的大同组、北京西山门头沟群、鄂尔多斯盆地延安组及表海大煤沟组所含植物各对比,时代属中侏罗世。 相似文献
2.
Further Information of the Associated Li Deposits in the No.6 Coal Seam at Jungar Coalfield,Inner Mongolia,Northern China 总被引:2,自引:0,他引:2
SUN Yuzhuang ZHAO Cunliang LI Yanheng WANG Jinxi ZHANG Jiany JIN Zhe LIN Mingyue Wolfgang KALKREUTH 《《地质学报》英文版》2013,87(4):1097-1108
Total 138 coal samples and 14 parting samples were taken from the No. 6 Seam of the Jungar Coalfield, Inner Mongolia. These samples were analysed by optical microscopy, sequential chemical extraction procedure (SCEP), inductively coupled plasma mass spectrometry (ICP-MS), X-ray powder diffraction (XRD), and scanning electron microscope in conjunction with an energy-dispersive X-ray spectrometer (SEM-EDX) analysis. The results indicate that the Li contents have reached the industrial grade of the coal associated Li deposit, and the total Li reserves have reached 2406600 tons, that is, 5157000 tons Li2O in the No. 6 seam in the Jungar Coalfield. The sequential chemical extraction procedure results suggest that the Li concentration is mainly related to inorganic matter. The minerals in the coals consist of kaolinite, boehmite, chlorite-group mineral, quartz, calcite, pyrite, siderite and amorphous clay material. Some Li could be absorbed by clay minerals in the Li-bearing coal seam. The chlorite phase?could be?most likely the host for a part of Li. The Yinshan Oldland should be the most possible source of Li of the coal. 相似文献
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The No. 6 Coal-bed from the Heidaigou Mine, Jungar Coalfield, Inner Mongolia is a super-large Ga deposit. The dominant carrier of Ga is boehmite in coal. The study of coal facies may provide genetic enrichment information of Ga and its carrier (boehmite) in the Ga deposit. On the basis of study on coal petrology and mineralogy, it was found that the No. 6 Coal-bed from the Heidaigou Mine of Jungar was enriched in inertinites and the microlitho-types were dominated by clarodurite. The maceral morphological features and association indicate that the coal-bed was formed in a dry sedimentary environment or in a periodic dry sedimentary environment caused by the alternating variations of groundwater level. The optimum conditions for the enrichment of Ga and its particular carrier (boehmite) were dominated by four transitional conditions (1) the upper delta plain which was the transitional zone between alluvial and lower delta plains, (2) the transitional zone between the dry and wet forest swamps, being slightly apt to the dry one, (3) the transitional tree density between the thick and loose ones, and (4) the low moor that was the transitional zone between two high moors during peat accumulation. 相似文献
5.
Tatyana K. Dimitrova Erwin L. Zodrow Christopher J. Cleal Barry A. Thomas 《Geological Journal》2010,45(4):388-396
The palynology of clastic samples from seven stratigraphical levels in the late Moscovian Sydney Mines Formation, exposed along the shore at Bras d'Or, Nova Scotia, has been investigated. Most of the samples were from roof shales of major coals; the one sample that was not yielded a much higher proportion of pollen derived from extra‐basinal vegetation. The four stratigraphically lower roof shale samples yielded essentially similar palynological spectra, with 39 ± 4% lycophytes, 9 ± 4% sphenophylls, 23 ± 4% tree‐ferns, 12 ± 4% other ferns and 5 ± 3% cordaites. The palynology of the upper part of the investigated succession suggests a shift in vegetation towards one favouring more marattialean tree‐ferns, cordaites and conifers, and fewer lycophytes. This correlates with changes in drainage patterns as the alluvial plain migrated seawards and thus changed water tables. No evidence was found to suggest significant climate change at this time. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
6.
Liugen Zheng Guijian Liu Lei Wang Chen-Lin Chou 《Journal of Geochemical Exploration》2008,97(2-3):59-68
The Huaibei Coalfield, Anhui Province, China, is one of the largest coalfields in China. The coals of Permian age are used mainly for power generation. Coal compositions and 47 trace elements of the No. 10 Coal of the Shanxi Formation, the No. 7, 5, and 4 Coals of the Lower Shihezi Formation, and the No. 3 Coal of the Upper Shihezi Formation from the Huaibei Coalfield were studied. The results indicate that the Huaibei coals have low ash, moisture, and sulfur contents, but high volatile matter and calorific value. The ash yield increases stratigraphically upwards, but the volatile matter and total sulfur contents show a slight decrease from the lower to upper seams. Magmatic intrusion into the No. 5 Coal resulted in high ash, volatile matter, and calorific value, but low moisture value in the coal. Among the studied 47 trace elements, Ba, Co, Cr, Cu, Hg, Mo, Ni, Pb, Sb, Th, U, V, and Zn are of environmental concerns. Four elements Hg, Mo, Zn, and Sb are clearly enriched in the coals as compared with the upper continental crust. 相似文献
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Dawei Lv Jitao Chen Zengxue Li Guiqiang Zheng Cuiyu Song Haiyan Liu Yanru Meng Dongdong Wang 《Resource Geology》2014,64(4):332-345
The Huanghebei Coalfield, one of the coal production bases in North China, was considered as a coalfield without coal‐bed methane (CBM) during past decades. In recent years, however, CBM has been discovered in coal‐bearing successions. In order to understand the CBM geological characteristics and accumulation process in this area, fifteen coal samples were collected and analyzed with respect to coal maceral and reflectance. The result shows that the gas distribution is uneven and the content varies in different areas even for the same coal bed. The storage of CBM is affected by geological factors such as burial depth, geological structures, and magmatic intrusion, among which the former two are more important in the formation of CBM. Deep burial of coal beds with the presence of cap‐rock mudstone can seal CBM. The CBM is also accumulated and preserved at the place where normal faults are distributed. Magmatic intrusion causes contact metamorphism and controls the CBM formation by heating the coal‐bearing successions. The obtained data indicate the geological conditions in northeastern Zhaoguan Mine are preferable for CBM formation and conservation; recent exploration estimates the CBM geological reserves up to 282.16 Mm3 and average of reserve abundance at 0.1662 × 108 m3 km?2. The Changqing Mine is a potential prospect in terms of CBM exploration since its geological conditions (structures and burial depth) are similar to the Zhaoguan Mine and its cap rock is even better. 相似文献
9.
黄陇侏罗纪煤田厚煤层开采导水裂隙带发育高度大,易导通上覆白垩系洛河组巨厚砂岩含水层,区内青岗坪煤矿回采期间出现典型的“脉冲式”涌水特征,给矿井的安全回采造成严重影响。以青岗坪煤矿42105综放工作面为研究对象,采用3DEC离散元模拟、钻孔冲洗液漏失量、综合物探以及钻孔电视相结合的实测方法,对工作面回采过程中覆岩导水裂隙带和离层发育规律进行研究,探究该典型地质条件下矿井的涌水机制与导水裂隙带发育特征。结果表明:42105工作面导水裂隙带受覆岩周期性垮落影响不断向上发育,洛河组孔裂隙砂岩静储水不断释放,间歇性涌入工作面,形成幅值稍低的“脉冲式”涌水;在采动影响下巨厚砂岩含水层内不断出现离层,导水裂隙带导通砂岩含水层离层积水区,致使涌入工作面的瞬时涌水量突增,形成幅值较高的“脉冲式”涌水。结合现场钻孔冲洗液漏失量实测、综合物探以及钻孔电视结果,揭示了青岗坪煤矿洛河组孔裂隙砂岩静储水与离层水叠加影响的“脉冲式”涌水机理,确定导水裂隙带的最大发育高度为316.83~333.00 m,裂采比为30.17~31.71。研究结果对于类似地层条件下矿井涌水的防治和安全高效回采具有指导意义。
相似文献10.