宁夏韦州矿区煤层挥发分特征与变质因素探讨

韦州矿区地处华北地台西侧与秦祁孤形褶皱带交汇处,含煤地层为石炭-二叠系太原组和山西组,赋存丰富的焦性煤炭资源。通过对矿区煤的挥发分及煤类在垂向、横向上变化规律分析,认为韦州向斜东翼煤层沿倾向呈现深成变质作用,主要以肥煤和焦煤为主,而沿向斜东翼往南、转向西翼,煤层变质程度急剧增高,达到中高变质程度的贫煤和无烟煤．矿区西侧青铜峡-固原断裂西部深处有隐覆岩体存在,使煤层在深成变质作用基础上,叠加了区域岩浆热力变质作用,导致矿区西部煤的变质程度增高。     

贵州六盘水地区水城矿区晚二叠世煤的煤质特征及其控制因素

本文中研究概括了六盘水地区水城矿区晚二叠世煤的煤岩学、煤化学和煤地球化学的研究结果,探讨了煤质的控制因素。研究结果表明水城矿区煤具有适合于炼焦用煤的煤岩煤质特征（中挥发分烟煤和高挥发分烟煤Ａ,适中的显微组分比例,４９．９％～８１．８％镜质组,１１．９％～３１．９％惰性组,０．４％～１６．９％壳质组,中－低的硫含量,０．３４％～１．５％）。水城煤的煤级主要受深成变质作用的影响。水城煤的岩石学特征主要受晚二叠世水城三角洲的控制。将水城矿区煤的微量元素含量与世界平均的微量元素进行比较,水城煤具有Ｓｅ、Ｚｒ、Ｃｒ、Ｃｏ、Ｕ和Ｔｈ稍高富集,Ｃｓ、Ａｓ和Ｂａ低富集的特点。煤中Ｂｒ和Ｃｌ具有亲有机性     

福建漳平可坑矿区煤系石墨赋存规律研究

漳平可坑矿区地处福建省中部含煤条带,赋存有丰富的高变质无烟煤,有较好的煤系石墨资源前景,是福建重要的石墨成矿区。为了查明可坑矿区煤系石墨的赋存规律,利用X射线衍射、拉曼光谱等技术,结合矿区岩浆活动和构造运动,对煤成石墨结构演化特征、煤成石墨化作用机制和控制因素进行了研究。结果表明煤系石墨是岩浆热和构造应力共同作用的产物,在煤成石墨化过程中,岩浆热产生的高温促进芳香层相互连接和横向增长,构造应力有利于芳香层的择优定向和有序堆叠,煤成石墨结构在温度、应力等因素作用下,碳层间结构缺陷逐渐消亡,石墨晶格逐渐形成,微观相逐渐转变,最终形成比较完善的石墨结构。研究明确了矿区构造和岩浆岩侵入对煤成石墨化作用的影响,划分了构造动力—岩浆热变质带、岩浆热—构造变质带、构造动力变质带三个变质带和三级控矿断裂带。可坑矿区煤系石墨产于构造动力—岩浆热变质带中,矿层靠近岩体呈近东西走向的单斜层状、似层状展布,但矿床的展布不完全受制于岩体,在空间上也受三级控矿断裂带的控制。      

广旺矿区的煤种分布规律研究

广旺矿区的煤种（煤变质程度）沿走向上自西向东呈规律性变化。研究从分析区域地质构造入手,分析了该矿区煤种规律性变化的具体原因,对预测区域性的煤层赋存状况、指导毗邻区及深部资源勘查工作具有重要的参考作用,也为研究和探讨含煤地层煤变质作用机理提供了具体的实证。     

东秦岭北缘煤的变质作用与板块构造的关系

以河南省东秦岭造山带北缘山西组二１煤层的煤岩、煤质、煤有机地球化学和“晶核”结构的综合研究为前提，结合板块构造和地球物理场的研究分析，认为该区二１煤的变质热源主要与长期复杂的板块俯冲、Ａ型碰撞所引起的地壳结构调整而使前陆盆地区岩石圈结构变化，大地热流急增的结果有关。二１煤的变质主要经历了早期（印支期前）的区域深成变质（达肥－气煤）和后期（印支－燕山期）的典型异常热变质作用（达无烟煤－高阶无烟煤）。     

也论汝箕沟矿区煤的岩浆热变质成因

汝箕沟矿区发育侏罗纪无烟煤。前人引证航磁资料，认为是隐伏岩体热变质作用形成。作者通过对区内详细地煤岩学研究，发现煤中存在着热变质的成因“标记”：高的反射率，强的各向异性，新生的各向异性体及热液气孔，热液岩脉等。因此，岩浆热变质作用使区内达无烟煤级，岩体部位、导热方式、加热速率等诸因素综合作用导致了现今北东向展布的半环带状煤级分带。     

中梁山矿区煤的孔隙特征及其对吸附性的影响

为了研究中梁山矿区煤的孔隙性、吸附性特征,选取8组煤样分别进行煤镜质组反射率测试、压汞实验和高压等温吸附实验分析。研究表明：（1）大孔和微孔对煤总孔容的控制明显,过渡孔和中孔影响小,微孔对煤比表面积的贡献最大;（2）煤中孔隙以开放孔为主,并具有相当数量的半封闭孔,孔隙连通性总体较好;（3）在中低煤级阶段,一般煤的孔隙度、孔容和比表面积均随变质程度的增大而减小;（4）煤的最大吸附量与总孔容、总比表面积呈正相关性。     

岩浆热变质作用对临兴区块煤层气含量赋存影响

基于鄂尔多斯临兴区块的地质背景,分析了紫金山岩体的岩浆热变质作用及其对煤层气赋存的影响。燕山期是本区岩浆岩活动最强烈的地质时期,形成了紫金山岩体。靠近紫金山岩体,煤的变质程度快速升高,煤样镜质组最大反射率高达4.9%;围绕紫金山岩体,煤层的孔隙度、渗透率和煤层气含量呈现环带状展布特征,煤层气含量快速升高。研究认为:由叠加在深成变质作用基础上的岩浆热变质作用形成的高温烘烤作用下,岩浆热变质引起煤的二次生烃导致煤生气量增大和吸附性增强。     

淮北石台煤矿接触变质煤速热碳化的微组构解译

作为岩浆吞噬煤层的信息记录者和物质承载者,接触变质煤是揭示煤层速热碳化过程和机理的重要研究对象。为此,本研究采集了淮北石台煤矿不同热变质程度的接触变质煤样品,利用镜质组反射率测试、元素分析、工业分析、偏光显微镜(PLM)和扫描电镜(SEM)等实验手段,表征其微组构特征,以期揭示煤层速热碳化的机理和过程。结果显示,从未受影响煤、浅热变质煤到天然焦,样品最大镜质组反射率、灰分产率升高,氢、氮元素以及挥发分含量降低。未受影响煤显微组分以胶质结构体为主,局部发育丝质体;浅热变质煤中裂隙发育、少见脱挥发孔;靠近岩体的块状天然焦中镶嵌结构炭和脱挥发孔发育,孔径多介于20~150 μm;岩体内的细脉状天然焦,主要由多孔炭和炭微球组成,富含圆形—椭圆形气孔,孔径多介于1~3 μm。分析表明,趋近岩体,接触变质煤热变质程度连续增加：浅热变质煤是煤层受较弱热变质而脆性断裂的结果;天然焦是浅热变质煤热解脱挥发分和中间相化的产物;至岩体附近,天然焦被液化成多孔炭和炭微球,后二者最终被氧化为气态碳氧化物而消失。我们认为,岩浆接触变质煤速热碳化的实质就是固态煤岩被岩浆热解而中间相化、液化和氧化气化的过程。     

论地质构造及其演化对煤和瓦斯突出的控制：以南桐矿区为例

本文在对南桐矿区地质构造与煤和瓦斯突出关系详细研究的基础上，论述了地质构造及其演化对煤和瓦斯突出的控制。主要结论有 ：（１）构造应力场具有主控作用；（２）构造演化造成了煤变质程度，煤体破坏程度和煤层瓦斯含量差异；（３）构造演化还造成了现今构造应力和瓦斯压力分布的差异；（４）地质构造及其演化控制煤和瓦斯突出的区域性分布。     

Geochemistry and Modes of Occurrence of Hazardous Trace Elements in the No. 11 Coal Seam, Antaibao Surface Mine, Shanxi Province

Concentrations of seventeen hazardous trace elements including As, Pb, Hg, Se, Cd, Cr, Co, Mo, Mn, Ni, U, V, Th, Be, Sb, Br and Zn in the No.ll coal seam, Antaibao surface mine, Shanxi Province were determined using Instrumental Neutron Activation Analysis （INAA）, Inductively Coupled Plasma Atomic Emission Spectrometry （ICP-AES）, Cold-Vapor Atomic Absorption Spectrometry （CV-AAS） and Graphite Furnace Atomic Absorption Spectrometry （GF-AAS）. Comparisons with average concentrations of trace elements in Chinese coal show that the concentrations of Hg and Cd in the No. 11 coal seam, Antaibao surface mine are much higher. They may be harmful to the environment in the process of utilization. The variations of the trace elements contents and pyritic suffur in vertical section indicated that： （a） the concentrations of As, Pb, Mn, and pyritic sulfur decrease from roof to floor; （b） the concentrations of Cr, Zn and Mo are higher in roof, floor and lower in coal seam; （c） the concentration of Br, Sb, and Hg are higher in coal seam and lower in roof and floor; （d） the concentrations of Mo, V, Th and AI vary consistently with the ash yield. Cluster analysis of trace elements, pyritic sulfur, ash yield and major elements, such as AI, Fe, P, Ca shows that： （a） pyritic sulfur, Fe, As, Mn, Ni, Be are closely associated and reflect the influence of pyrite; （b） Mo, Se, Pb, Cr, Th, Co, Ca and A! are related to clay mineral, which is the main source of ash; （c） U, Zn, V, Na, P maybe controlled by phosphate or halite; （d） Hg, Br, Sb and Cd may be mainly organic-associated elements which fall outside the three main groups. The concentration distribution characteristics of trace elements in coal seam and the cluster analysis of major and trace elements showed that the contents of trace elements in the No. 11 coal seam, Antaibao surface mine, are mainly controlled by detrital input and migration from roof and floor.     

晋北-宁北煤中痕量元素的地球化学特征

应用仪器中子活化 (INAA)、电感耦合等离子体原子发射光谱 (ICP- AES)和原子吸收光谱 (AAS)等方法测定了晋北-宁北一线 5对矿井、 2个露天矿、 5个电厂和 3个洗煤厂煤中环境敏感性痕量元素的含量;通过与中国土壤、其他地区煤以及世界范围煤中痕量元素含量进行对比,总结了研究区痕量元素的分布、富集特征,得知部分地区煤中 Hg、 Cd和 Se的含量较高,在燃烧利用过程中可能对环境造成影响.通过分析痕量元素与灰分、挥发分的相关性以及痕量元素间、痕量元素与 Al、 Fe和 Sp的相关、聚类特性,探讨了痕量元素间及其与矿物质间的亲合性及赋存特征.     

准格尔煤田串草圪旦煤矿5号煤元素地球化学特征

为研究准格尔串草圪旦5号煤微量元素地球化学特征,采用光学显微镜、扫面电子显微镜和X射线衍射（XRD）方法观测煤中矿物组成及形态特征,应用电感耦合等离子质谱（ICP MS）方法测定煤中多种微量元素含量,运用数理统计方法研究微量元素在煤中的赋存特征。结果表明：5号煤中Li、Be、F、U、Hg 5种元素相对富集,含量高于研究区6号煤及中国煤中含量水平。5号煤中Li、F、Ga、Se无机亲和性强,Be、As、U为亲有机元素;Hg与硫含量显著正相关。各元素在煤中主要以有机结合态、无机结合态和硫化物结合态赋存。     

The occurrence of potentially hazardous trace elements in five Highveld coals, South Africa

Permian coals of the southern hemisphere are generally considered to contain lower concentrations of sulfides, halogens, and trace elements when compared to northern hemisphere Carboniferous coals. Few studies have considered the trace element content in South African coals, and little or no work has been published for Highveld coals. Of the nineteen coal fields in South Africa, the Highveld coal field is one of the nine currently producing, and is second largest in terms of production. Five run of mine samples and a high ash middlings product from the Number 4 Lower seam were analyzed, totaling six sample sets. Fourteen trace elements (As, Cd, Co, Cr, Cu, Hg, Mn, Mo, Ni, Pb, Sb, Se, V, and Zn) were selected for this study based on the global perception that these elements may be hazardous to human health and/or the environment when they are released during coal utilization. Several sample preparation techniques were tested using certified reference materials (SARMs 18, 19 and 20) to determine the most repeatable technique for these coals. The samples were analyzed by ICP-AES and CVAA (Hg only). Microwave digestion proved to be generally unreliable despite the utilization of several different methods. A slurry direct injection method into the ICP-AES provided good correlations with the reference material, but requires further development to enhance the confidence level in this relatively unexplored technique. Samples prepared based on three ASTM standards for the determination of trace elements in coal provided repeatable results in most instances, and were the preparation methods utilized for the Highveld coals.The trace element values determined for the Highveld coals are generally in good agreement with values available in literature for South African coals, with the exception of Hg, Mn and Cr. Hg values reported here are lower, Cr and Mn higher. Results generally agree well with analyses on the same samples conducted by the United States Geological Survey. When considering the global ranges for trace elements, the Highveld range values are within Swaine's range boundaries with the exception of Cr. Compared to the cited global average values for the fourteen trace elements determined, the values obtained for the Highveld coals generally fall below or well below these average values, with the exception of Cr and Mn. Concentrations of Cd and Cu are lower compared to global average values, and As, Mo, Pb, Se, Sb, and Zn can be considered low to very low. Arsenic is ten times lower compared to typical USA values. Concentrations of Co and Ni are similar to global averages, with V and Hg being very slightly higher. The middlings samples reported higher concentrations of most elements, related to the higher ash content of these samples. Of interest, the chalcophile elements determined are all depleted in the Highveld coals compared to global averages, and the siderophile elements are enriched or comparable to global averages.Risk-based health studies in the USA on coals with similar or higher Hg and significantly higher As contents have not reported negative health effects, and therefore it could be assumed that the mobilization of these trace elements from the five Highveld coals are unlikely to cause human health problems. Work is ongoing to determine the modes of occurrence of these HAPs and to address the partitioning behaviors and speciation states of these elements during coal utilization.     

Abundances and modes of occurrence of trace elements in the Çan coals (Miocene), Çanakkale-Turkey

This study presents the concentrations and modes of occurrence of trace elements in 81 coal samples from the Çan basin of northwestern Turkey. The concentration of trace elements in coal were determined by inductively coupled plasma-mass spectrometry and inductively coupled plasma-atomic emission spectrometry. Additionally, traditional coal parameters were studied by proximate, ultimate, X-ray diffraction, and petrographic analyses. Twenty trace elements, including As, B, Ba, Be, Cd, Cu, Co, F, Hg, Mo, Ni, Pb, Sb, Se Sn, Th, Tl, U, V, and Zn, receive much attention due to their related environmental and human health concerns. The Çan coals investigated in this study are lignite to sub-bituminous coal, with a broad range of ash yields and sulphur contents. The trace element concentrations show variety within the coal seams in the basin, and the affinities vary among locations. The concentrations of B, Ba, Be, Cd, Cu, Co, F, Hg, Mo, Ni, Pb, Sb, Se, Sn, Tl, and Zn in Çan coals are within the Swaine's worldwide concentration range, with the exception of As, Th, U, and V. On the other hand, compared with world coals, the Çan basin coals have higher contents of As, B, Cu, Co, Mo, Pb, Th, U, V, and Zn. Based on statistical analyses, most of the trace elements, except for U, show an affinity to ash yield. Elements including As, Cd, Hg, Se, Cu, Mo, Ni, and Zn, show a possible association with pyrite; however, the elements Se, B, and Mo can be have both organic and inorganic associations.     

Concentration and distribution of trace elements in some coals from Northern China

The concentration, distribution and modes of occurrence of trace elements in thirty coals, four floors and two roofs from Northern China were studied. The samples were collected from the major coalfields of Shanxi Province, Shaanxi Province, Inner Mongolian Autonomous Region, and Ningxia Hui Autonomous Region. The concentrations of seventeen potential hazardous trace elements, including Hg, As, Se, Pb, Cd, Br, Ni, Cr, Co, Mo, Mn, Be, Sb, Th, V, U, Zn, and five major elements P, Na, Fe, Al, and Ca in coals were determined.Compared with average concentration of trace elements in Chinese coal, the coals from Northern China contain a higher concentration of Hg, Se, Cd, Mn, and Zn. They may be harmful to the environment in the process of combustion and utilization. Vertical variations of trace elements in three coal seams indicated the distributions of most elements in coal seam are heterogeneous. Based on statistical analyses, trace elements including Mo, Cr, Se, Th, Pb, Sb, V, Be and major elements including Al, P shows an affinity to ash content. In contrast, Br is generally associated with organic matter. Elements As, Ni, Be, Mo, and Fe appear to be associated with pyrite. The concentrations of trace elements weakly correlate either to coal rank or to maceral compositions.     

淮南煤田深部A组煤中有害微量元素地球化学特征

以淮南煤田深部A 组煤为研究对象,全层刻槽采集了煤、夹矸和顶底板岩石样品,采用电感耦合等离子质谱仪 （ICP-MS） 测试分析了样品中13 种有害微量元素的含量,对比研究了其分布特征,结合Tessier 五步形态提取法和相关性分 析探讨了煤中有害微量元素的赋存形态。结果表明：（1） 与中国上陆壳中各种微量元素含量均值相比,淮南深部A 组煤中 B,As,Se,Mo,Cd,Pb,Hg 的富集系数均大于1,在A 组煤中表现为富集;A 组煤中B,As,Se,Cd 的含量均高于淮南煤 田上部B 组煤、华北煤以及中国煤中的含量均值;（2） 相关性分析和逐级提取实验结果表明,A 组煤中微量元素主要以残 渣态和铁锰氧化物结合态存在,两者质量分数之和达到55%~98%,其中Ni,Mo,Cd,Hg,Cu,Pb 和Zn 主要赋存于硫化物 矿物中,Mn 主要赋存于碳酸盐矿物中,V,Cr,Se,B 和As 主要赋存于硅铝酸盐等黏土矿物中。（3） B 元素示踪物源及沉 积环境结果显示,淮南煤田深部A 组煤成煤环境为海相咸水沉积环境,稳定的咸水沉积环境以及受海水影响等因素导致A 组煤中微量元素出现不同程度的富集。     

Mineralogical and elemental variation of coal from Alberta, Canada: an example from the No. 2 seam, Genesee Mine

Mineralogy and elemental contents were determined on 18 samples from a vertical profile of the No. 2 seam, Genesee mine, AB. The samples analyzed consist of coal, coaly shale, shaly coal, carbonaceous shale, shale, mudstone and siltstone. Proximate analysis was determined on all samples. Elemental analyses were determined by instrumental neutron activation analysis (INAA) for all elements except As, B, Cd, Hg, Mo, Pb, Se (Atomic Absorption) and B, Ba, Be, Co, Cr, Cu, Li, Mn, Nb, Sr and V (inductively coupled plasma-emission spectroscopy, ICP-ES). Samples were low temperature ashed (LTA), X-ray diffraction (XRD) and X-ray fluorescence (XRF) were used to determine quantitative major mineralogy. Accessory mineralogy was determined with Scannining Electron microscope/energy dispersive X-ray analyzer (SEM/EDX) on four samples. In general, the coals in the Genesee mine are within the low end of the range for trace element contents given by Swaine [Swaine, D.J., 1990. Trace Elements in Coal. Butterworths, London, 278 pp.] for most coals. High contents of Cr (9–2620 ppm) and Ni (1–1440 ppm) can be related to an increased amount of a Cr–Ni–Fe oxide (chromite–magnetite?) likely derived from ultrabasic diatremes in the Golden-Columbia Icefields, BC area. The No. 2 seam of the Genesee mine can be divided into two geochemical cycles on the basis of mineralogy, trace element contents and rare earth element (REE) behavior. Cycle I consists of quartz, calcite and kaolinite, lower trace element contents, REE slightly enriched in high rare earth elements (HREE), and thick coal with few partings. Cycle II consists of quartz, calcite, kaolinite, illite, mixed layer and/or expandable lattice clays, feldspar, gypsum, calcium aluminum sulfate hydrate, clinoptilolite, calcite and diopside, higher trace element contents, REE slightly enriched in light rare earth elements (LREE) and thin coal with a greater frequency of partings. The differences between the two geochemical cycles can be accounted for by a decreasing stability of the peat-forming environment resulting from an increasing fluvial influence and volcanogenic input.     

安徽二叠纪龙潭组煤中潜在毒害元素分布的因子分析研究

运用因子分析法对安徽二叠纪龙潭组煤层中S、Fe、As、CA、Se、Hg、Ti和Zn等的分布规律进行了研究,研究了这些潜在毒害元素的相关关系,并结合元素地球化学知识给出了这些元素在煤中赋存状态的信息。结果表明:煤层中Pb以方铅矿形式存在于煤中;As、Hg、Sb主要赋存于次生黄铁矿中;Zn和Se主要赋存于闪锌矿中;从元素地球化学性质上讲,Cd应赋存于闪锌矿中,但由于其在煤中的含量较低,造成分析数据的误差较大,从而掩盖了它与Zn之间的相关关系;Ti的赋存状态较为复杂。     

The origin and distribution of HAPs elements in relation to maceral composition of the A1 lignite bed (Paleocene, Calvert Bluff Formation, Wilcox Group), Calvert mine area, east-central Texas

The origin and distribution of twelve potentially Hazardous Air Pollutants (HAPs; As, Be, Cd, Cr, Co, Hg, Mn, Ni, Pb, Sb, Se, and U) identified in the 1990 Clean Air Act Amendments were examined in relation to the maceral composition of the A1 bed (Paleocene, Calvert Bluff Formation, Wilcox Group) of the Calvert mine in east-central Texas. The 3.2 m-thick A1 bed was divided into nine incremental channel samples (7 lignite samples and 2 shaley coal samples) on the basis of megascopic characteristics. Results indicate that As, Cd, Cr, Ni, Pb, Sb, and U are strongly correlated with ash yield and are enriched in the shaley coal samples. We infer that these elements are associated with inorganic constituents in the coal bed and may be derived from a penecontemporaneous stream channel located several kilometers southeast of the mining block. Of the HAPs elements studied, Mn and Hg are the most poorly correlated to ash yield. We infer an organic association for Mn; Hg may be associated with pyrite. The rest of the trace elements (Be, Co, and Se) are weakly correlated with ash yield. Further analytical work is necessary to determine the mode of occurrence for these elements. Overall, concentrations of the HAPs elements are generally similar to or less than those reported in previous studies of lignites of the Wilcox Group, east-central region, Texas. Petrographic analysis indicates the following ranges in composition for the seven lignite samples: liptinites (5–8%), huminites (88–95%), and inertinites (trace amounts to 7%). Samples from the middle portion of the A1 bed contain abundant crypto-eugelinite compared to the rest of the samples; this relationship suggests that the degradation of plant material was an important process during the development of the peat mire. With the exception of Hg and Mn, relatively low levels of the HAPs elements studied are found in the samples containing abundant crypto-eugelinite. We infer that the peat-forming environment for this portion of the coal bed was very wet with minimal detrital input. Relatively high concentrations of crypto-humotelinite were found in samples from the top and base of the coal bed. The presence of abundant crypto-humotefinite in this part of the coal bed suggests the accumulation of wood-rich peat under conditions conducive to a high degree of tissue preservation in the peat mire. Although several of the trace elements (Be, Co, Ni, and Sb) exhibit enrichment in these samples, they are not necessarily chemically associated with humotelinite. We infer that these elements, with the exception of Be, are possibly associated with deposition of the roof and floor rock of the coal bed; however, further analytical work would be necessary to confirm this hypothesis. Beryllium may have an organic origin.