煤中微量元素富集的主要因素分析

在对兖州矿区煤中微量元素成因分析及总结前人结论的基础上,将煤中微量元素富集因素划分为原生、次生和后生三个阶段,分别对每一个阶段影响微量元素富集的主要因素进行研究和分析。结果表明,煤在形成的过程中影响微量元素迁移、富集的因素很多,植物生长的种类、生长中水化学条件、泥炭沼泽形成中大气、海水的入侵、煤在煤化过程中岩浆热液的作用、煤与顶、底板岩石的物质交换作用等都影响着煤中微量元素富集。因此,煤中微量元素的形成、聚集是煤在形成的各个时期、各种地质因素综合影响的结果。      

煤中有害微量元素富集的成因类型初探

媒中微量元素的富集受多种因素和多期作用控制,往往是多因素叠加的结果。文中对煤中有害微量元素富集的成因类型进行了初步探讨,根据煤中有害元素富集的主导因素,划分出5种媒中有害微量元素富集的成因类型：（1）陆源富集型;（2）沉积-生物作用富集型;（3）岩浆-热液作用富集型;（4）深大断裂-热浪作用富集型;（5）地下水作用富集型。对煤中有害微量元素的来源。运移、富集的地质地球化学背景进行深入研究,将有助于发展中国煤地球化学基础理论,也可为煤利用过程中的环境保护提供科学依据。     

煤灰中金的地球化学研究进展

综述了国内外煤灰中金的研究进展,详细探讨了煤灰中金的分布规律,煤燃烧时金的迁移规律、金挥发的影响因素与利用可行性。世界范围内绝大多数煤灰中金含量比原煤中要富集,仅发现部分地区煤灰中金含量比原煤中低。煤中金的赋存状态、成煤地质地球化学环境及燃烧条件是影响燃煤过程中金挥发的主要因素,其中赋存状态对燃煤过程中金的再分配起控制作用。煤灰中金储量的初步计算结果表明,黔西南煤与煤灰中金颇具利用潜力。     

煤灰中金的地球化学研究进展北大核心CSCD

综述了国内外煤灰中金的研究进展,详细探讨了煤灰中金的分布规律,煤燃烧时金的迁移规律、金挥发的影响因素与利用可行性。世界范围内绝大多数煤灰中金含量比原煤中要富集,仅发现部分地区煤灰中金含量比原煤中低。煤中金的赋存状态、成煤地质地球化学环境及燃烧条件是影响燃煤过程中金挥发的主要因素,其中赋存状态对燃煤过程中金的再分配起控制作用。煤灰中金储量的初步计算结果表明,黔西南煤与煤灰中金颇具利用潜力。     

煤中有害物质及其对环境的影响研究进展

综述了煤中有害物质的种类、分布赋存特征及对环境的影响研究进展。探讨了煤中黄铁矿的形态、世代交替、有机硫的结构及煤中硫的地质成因。阐述了煤中微量元素的种类、地质分布、赋存状态、迁移聚集机制及其环境危害。并对煤及燃煤产物中多环芳烃的种类、赋存规律及对环境和人类健康的危害进行了详细阐述。最后指出了煤中有害物质研究中存在的问题与发展趋势。     

煤和含煤岩系中潜在的共伴生矿产资源——一个值得重视的问题

煤是一种具有高度还原障和吸附障性能的有机岩和矿产,在特定的地质条件下,可以富集一些有益金属元素,并达到成矿的规模。综合国内外一些研究资料,论述了煤和含煤岩系中有益金属铌、镓、铼、钪的丰度、赋存状态、地质成因以及利用的可能性。煤中稀有金属元素富集或成矿的研究,是煤地球化学和矿床地球化学重要内容之一,值得进一步加强。     

煤中铂族元素赋存的地质研究进展

对煤中铂族元素的质量分数、赋存状态、来源及其异常富集的地质因素等进行了详细的阐述,并提出了今后研究的重点.研究资料表明,煤中不仅普遍含有铂族元素,甚至可以产生异常富集现象;铂族元素常以水溶态、离子交换态、碳酸盐态、有机态、硅铝化合物态、硫化物态等形式赋存于煤中;导致煤中铂族元素异常富集的机理主要有:岩浆热液作用、低温热液作用和同沉积火山灰作用3种.     

煤型关键金属矿产研究进展

关键金属是全球高科技产业发展所必需的战略性矿产资源,包括稀有金属、稀土金属、稀散金属以及稀贵金属.煤及其燃烧后的飞灰中能够富集关键金属元素,含量可以达到甚至超过传统的矿床类型,有望成为未来关键金属的主要来源.煤型关键金属矿床指在一定的地质作用下,含煤盆地中富集关键金属且在当前经济技术条件下可被开发利用的煤层、夹矸和围岩.本文通过对煤型关键金属矿床的地质特征、成矿金属元素来源和赋存状态、富集机制以及成矿规律进行系统论述,认为煤型关键金属矿床有宇宙成因、陆源碎屑成因、火山碎屑成因、热液成因、外部流体渗滤成因以及叠加复合成因6种类型,SEM-EDS和BSE技术结合ICP-MS、ICP-AES和EMPA是煤中关键金属元素重要的分析测试方法;总结煤型关键金属矿床的时空分布规律和研究趋势,提出岩浆活动与煤中关键金属元素富集的关系、煤中关键金属元素赋存状态的影响因素、合适的分析测试方法以及开发和选冶技术创新等研究方向.文章强调煤型关键金属矿床潜在的工业经济价值,加强我国煤型关键金属矿产的科学研究和综合利用,不仅能为关键金属矿产的成矿理论研究、找矿突破以及开发利用提供科学依据,还有助于促进我国煤炭经济的绿色循环发展.     

华北晚古生代煤中有机硫的赋存状态及其成因

为揭示煤中有机硫的赋存状态及其地质成因,采用电子探针微区分析和硫同位素分析技术对华北地区山西大同、太原西山、霍州以及安徽淮南４个矿区的８个层晚古生代的煤层进行了研究,海水的作用对有机硫的聚集起着十分重要的影响。煤的不同显微组分中有机硫的质量分数存在明显差异,镜质组中有机硫的质量分数高于其在惰质组的质量分数。硫在煤中的聚集是一个逐渐累积的过程,有机硫的聚集一般滞后于黄铁矿硫的聚集。泥炭沼泽条件控制着     

临沧锗矿床的稀土元素地球化学研究

通过对临沧锗矿床中基底花岗岩、矿化煤以及硅质岩的稀土元素地球化学研究认为盆地基底花岗提供了形成锗矿化的锗和形成硅质岩的硅；本区陆相热水成因硅质岩的Ce异常不明显，相对富集LREE；矿化煤相对富集HREE，这可能主要与矿化煤在含锗热液的相互作用过程中，煤对重烯土的优先富集有关。     

Anomalous gold contents in brown coals and peat in the south-eastern region of the Western-Siberian platform

One hundred twenty-two samples of Jurassic and Paleogene brown coals and 1254 peat samples from the south-eastern region of the Western-Siberian platform were analyzed for gold by the neutron-activation method. Mean content of Au in Jurassic coals is 30 ± 8 ppb, in Paleogene coals is 10.6 ± 4.8 ppb, and in peat is 6 ± 1.4 ppb. Concentrations of gold as high as 4.4 ppm were found in coal ash and 0.48 ppm in the peat ash. Coal beds with anomalous gold contents were found at Western-Siberian platform for the first time.Negative correlation between gold and ash yield in coals and peat and highest gold concentrations were found in low-ash and ultra-low-ash coals and peat. Primarily this is due to gold's association with organic matter.For the investigation of mode of occurrence of Au in peat the bitumen, water-soluble and high-hydrolyzed substances, humic acids, cellulose and lignin were extracted from it. It was determined that in peat about 95% of gold is combined with organic matter. Forty to sixty percent of Au is contained in humic acids and the same content is in lignin. Bitumens, water-soluble and high-hydrolyzed substances contain no more than 1% of general gold quantity in peat.The conditions of accumulation of high gold concentrations were considered. The authors suggest that Au accumulation in peat and brown coals and the connection between anomalous gold concentrations and organic matter in low-ash coals and peat can explain a biogenic–sorption mechanism of Au accumulation. The sources of formation of Au high concentration were various Au–Sb, Au–Ag Au–As–Sb deposits that are abundant in the Southern and South-Eastern peripheries of the coal basin.     

Metalliferous coals: A review of the main genetic and geochemical types

This paper presents a review of the genetic types and geochemical processes that have formed ‘metalliferous’ coals around the world. Primary attention is given to elements in coal that are currently being extracted from coal as raw material (Ge and U) or have, in our opinion, the best chance for such use (REE, Ag, Au, and PGE). Coals with anomalously high concentrations of other metals having potential for economic by-product recovery (Be, Sc, V, Ga, Sb, Cs, Mo, W, and Re) are briefly considered. Original data and a survey of the literature indicate that metalliferous coals are in many coal basins. Ore formation in coal-bearing structures may occur during peat accumulation, during diagenesis of the organic matter, or by epigenesis. Various metals are supplied to sedimentary basins as minerals that are transported by water and wind or as ionic species in surface water and descending and ascending underground water and may be incorporated into peat or coals. The modes of occurrence of metals in the enriched coals are diverse. The data presented in this review indicates that metalliferous coals should be regarded as promising for economic recovery for by-products in the course of coal mining and combustion.     

Scandium in the coals of Northern Asia (Siberia,the Russian Far East,Mongolia, and Kazakhstan)

We present new original data on the geochemistry of scandium in the coals of Asian Russia, Mongolia, and Kazakhstan. In general, the studied coals are enriched in Sc as compared with the average coals worldwide. Coal deposits with abnormally high, up to commercial, Sc contents were detected in different parts of the study area. The factors for the accumulation of Sc in coals have been identified. The Sc contents of the coals depend on the petrologic composition of coal basins (composition of rocks in their framing) and the facies conditions of coal accumulation. We have established the redistribution and partial removal of Sc from a coal seam during coal metamorphism. The distribution of Sc in deposits and coal seams indicates the predominantly hydrogenic mechanism of its anomalous concentration in coals and peats. The accumulation of Sc in the coals and peats is attributed to its leaching out of the coal-bearing rocks and redeposition in a coal (peat) layer with groundwater and underground water enriched in organic acids. The enrichment of coals with Sc requires conditions for the formation of Sc-enriched coal-bearing rocks and conditions for its leaching and transport to the coal seam. Such conditions can be found in the present-day peatland systems of West Siberia and, probably, in ancient basins of peat (coal) accumulation.     

华南地区晚二叠和晚三叠世煤中稀土元素特征研究

在华南地区贵州六盘水、江西乐平、露庆和湖北黄石矿区晚二叠和晚三叠世煤层的稀土元素ICP—MS分析数据的基础上，系统研究了研究区煤中稀土元素的含萤分布特征、赋存特征、配分模式以及地质控制因素。含量分布表明晚二叠世稀土元素含量总体高于晚三叠世；煤中稀土元素与灰分成正相关关系，部分煤样品由于有富稀土元素的重矿物组合的存在而出现稀土元素的异常高值；同一矿区、同一时代煤中稀土元素的配分模式具有一定的相似性，而不同地区同一时代和同一地区不同时代煤中稀土元素的配分模式具有较大差异；煤的沉积环境，煤中无机矿物组成以及海水的影响是控制煤中稀土元素含量和配分模式的主要地质因素。     

煤汞同位素地球化学研究进展

汞是煤中普遍存在的痕量元素,煤炭消耗总量之巨使燃煤成为全球汞污染主要来源之一。汞具有7种稳定同位素, 并且兼具质量分馏和非质量分馏效应,使通过汞同位素对涉煤汞污染源和汞迁移、转化示踪成为理想途径。煤中汞同位素 研究获得长足进展。第一,初步给出了世界11个产煤国煤中汞同位素δ202Hg的特征值及分布范围,为示踪环境介质汞的燃 煤源污染源创造了条件。第二,发现了原煤中汞存在奇数质量汞的非质量分馏效应（Δ199Hg≠0）,有助于配合δ202Hg开展示 踪研究。第三,中国不同产煤地及不同成煤期原煤中汞同位素δ202Hg与Δ199Hg值已被测试,为中国开展煤源汞污染示踪研究 打下一定基础。进一步工作可能有待加强的4个方面：（1） 全球不同地域和时代煤中汞同位素数据库的不断补充、修正和 完善;（2） 煤炭生产遗存物,如残留煤和煤矸石等与气-水环境相互作用中的汞同位素问题;（3） 燃煤派生的且影响人类 健康的环境介质如大气细颗粒物（PM2.5） 的汞同位素问题;（4） 涉及煤火汞的迁移转化是复杂的,部分汞具有二次释放特 性,其中汞同位素问题仍是未知的。总之煤中汞及其关联的汞同位素研究方兴未艾。     

A petrologic method of analysis of nonmaceral microstructures in coal

The petrographic maceral composition and vitrinoid reflectance of bituminous coals have been correlated with their carbonization characteristics and are widely used to predict how coals will perform in the coking process and to calculate the strength of the resulting coke. As a result, there is a growing dependence on coal petrographic data in characterizing coals for cokemaking. In addition, there is a growing awareness that there are other nonmaceral microstructures in coal such as material size, shape, association, fracturing, and weathering which should permit better characterization of coals when properly interpreted. These nonmaceral microstructures also give an insight into the metamorphic history and changes due to burial and exhumanation.To expand the use of coal petrologic and petrographic data, a new analytical procedure has been developed that requires the microscopic determination of such nonmaceral microstructures as normal coal, coal fines, pseudovitrinoids, microbrecciation, oxidation, coarse mineral matter, miscellaneous materials, and contamination. The occurrence of one or more of these microstructures in coal, depending on their kind and abundance, may have a significant effect on the coal performance in various processes. This work has resulted in formulation of a technique for determining the nonmaceral microstructures in coal and, if applied as a supplement to the routine maceral analysis of coals, should help in explaining the anomalous behavior of some coals.     

我国部分地区煤及煤矸石中汞的分布特征

采用原子荧光光谱仪测定了陕西、山西、云南、山东以及河南等地一些煤、电厂炉渣、飞灰等样品中汞元素的质量分数。检出限为0.01×10-6。除淮南地区的个别样品外,多数样品中汞的质量分数处于世界多数煤和中国多数煤中Hg质量分数范围内,少数高于世界煤炭汞质量分数的平均值(0.02×10-6~1.0×10-6)。不同地层间、不同类型样品间汞的质量分数有较大差别:上石盒子组中的>山西组中的>太原组中的;飞灰中的汞质量分数明显大于炉渣中的汞质量分数;褐煤中的汞质量分数高于无烟煤中的。      

Anomalous Concentrations of Rare Metal Elements, Rare-scattered (Dispersed) Elements and Rare Earth Elements in the Coal from Iqe Coalfield, Qinghai Province, China

Total of 23 bench samples were taken from the No. 7 Coal of Iqe Coalfield, Qinghai Province, China, following Chinese Standard Method GB/T 482-2008 (2008). These samples were analyzed by powder X-ray diffraction (XRD), inductively coupled plasma mass spectrometry (ICP-MS) and X-ray fluorescence (XRF). The results indicate that the No. 7 Coal belongs to a low rank (Ro,ran =0.659%) and high-ash coal (40.54%). Compared to common Chinese and world low-rank coals, the Iqe coal contains anomalous concentrations of rare metal elements, rare-scattered (dispersed) elements and rare earth elements. The highest contents of Rb, Cs, Ga and REY reach to 180, 26, 37, and 397 ppm, respectively. Their average contents of these elements are 10.9, 15, 4.8 and 3.5 times higher than those of world coals, respectively. Minerals in the coal include kaolinite, quartz, muscovite, siderite, and traces of rutile, and brookite. Kaolinite could be main host minerals of Rb, Cs, Ga and REY. The anomalous rare element Rb and Cs accumulation in the Iqe coal is related to both organic and inorganic matter. The REY concentrations may be related to circulation of thermal solutions, contained or sorbed by clayey particles, and organic matter as well.     

陕西秦岭巴山地区化探异常查证找矿实例分析

在陕西秦岭巴山地区9万km²内,通过1:20万区域化探扫面,发现了一批多元素综合异常,并根据地质构造背景分析划分出五个异常带(区)。其中新发现的北秦岭Au、Ag、Pb、Zn异常带,规模大、元素组合复杂且含量高,为一重要的金、多金属成矿带。1986年开始,在该区大力开展区域化探异常查证工作。通过1:5万水系沉积物测量,圈定了以金元素为主的化探异常。在主体异常部位系统地开展了1:1万土壤测量和槽探工程,于当年就在周至县马鞍桥发现了金矿体。随后又根据化探异常特征,布置了钻探和坑探工程验证。经进一步检查和详查,确认马鞍桥金矿为一大型金矿床。     

Environmental geochemistry and health of fluorine in Chinese coals

Fluorine is one of the potential hazardous trace elements in coal. Fluorine may be released into atmosphere mostly during coal combustion process. When the coal is burning indoors without any controlling methods (chimney), the fluorine will pollute the room and is absorbed by food fired (dried) over stoves. Now many people have suffered from fluorosis due to coal burning indoors in Southwest China. In this paper, the concentration, distribution, mode of occurrences and impact factors of fluorine in Chinese coals are analyzed. The environmental impacts and typical features of fluorosis are studied. It is concluded that the value of fluorine in Chinese coals ranges from 20 to 300 mg/kg, and with average value of 122 mg/kg from 5,603 coal samples. It is higher than the average value of the world coals (80 mg/kg). In provincial coalfields of the SW China, the content of F is highest and many people have been affected due to coal combustion indoors.