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1.
淄博煤田发现一个腐泥煤变质系列不少煤地质学者想了解腐泥煤变质系列与腐植煤变质系列的区别,但是难以找到一套完整的不同煤化程度的腐泥煤,致使有的学者把分散于世界各地的不同地质条件下不同变质程度的腐泥煤集中起来对比研究,或者是以低煤化腐泥煤的热模拟产物代替... 相似文献
2.
腐泥煤变质系列的红外光谱和X衍射特征 总被引:4,自引:1,他引:4
对淄博、滕县两煤田不同煤级与腐植煤共生的腐泥煤系列进行了对比研究。红外光谱特征为:反映芳环-C=C-键伸缩和弯曲振动的1600cm-1峰的吸收值都小于共生腐植煤;反映芳烃CH基团面外弯曲振动的880cm-1峰只在腐植煤中出现,而810cm-1峰的吸收值全部高于腐植煤;两次出现了在腐植煤中从未出现过的810cm-1>750cm-1的情况;芳烃结构指数>08,而腐植煤则全部<08。X线衍射结果:LC都随煤化作用的进行逐渐增大,在Cdaf为92%±达峰值,然后又逐渐变小;两个系列相比,全都是腐泥煤较大;La都随煤化作用的进行逐渐增大,大部分腐植煤比腐泥煤的大;d(002)都随煤化作用的进行逐渐变小,两个系列相比都是腐泥煤的较小。 相似文献
3.
腐泥煤变质系列热解色谱和氯仿沥青“A”的特点 总被引:2,自引:0,他引:2
对滕县、淄博两煤田与腐殖煤共生的不同煤级的腐泥煤进行了热解和氯仿沥青“A”的族组份分析,获得如下认识:热解的结果,Tmax、S1、S3、Ip全部高于共生腐殖煤,It全部低于共生腐殖煤,S2和Cp在低煤化阶段高于腐殖煤,而中,高煤化阶段则低于腐殖煤;氯仿沥青“A”都随煤级的增高而减少,腐泥煤全部高于腐殖煤,腐泥煤从低煤级到高煤级其族组份的排序从饱和烃>非烃>芳烃>沥青质变化到非烃>芳烃>沥青质>饱和烃;而腐殖煤族组份的排序则从沥青质>芳烃>非烃>饱和烃>沥青质。 相似文献
4.
运用电感耦合等离子质谱(ICP-MS)、冷蒸汽原子吸收光谱(CV-AAS)、显微镜光度计和煤化学等方法,对江苏徐州大屯矿区张双楼12-1号钻孔腐泥煤(太原组17号煤层)和龙固煤矿腐植煤(太原组21号煤层)的煤岩煤质和微量元素特征进行研究。结果显示,徐州大屯矿区腐泥煤中藻类体含量很高,是典型的藻煤,其挥发份产率和氢含量是腐植煤的1.5倍;腐泥煤的Sr/Ba为1.43,腐植煤为0.48,揭示该腐泥煤是在比较开阔的海水中形成的;腐泥煤和腐植煤中的不相容元素在原始地幔标准化曲线上具有一致的Pb显著富集、Ti显著亏损的分布特征,其稀土元素丰度球粒陨石标准化曲线形态相似,均显示轻稀土富集、重稀土相对亏损的特征;腐泥煤中Ce和Eu元素未发生价态变化,腐植煤中Eu显示负异常。 相似文献
5.
为正确区分腐泥煤与腐植煤的地球化学特征,对山东淄博煤田10个地质勘探钻孔中共生的腐温煤与腐植煤样品的水分、硫含量、发热量、灰产率及灰成分、微量元素等进行了分析测试和对比研究,研究表明与共生的腐植煤相比,大部分腐泥煤具有低硫、高灰、高密度、富含微量元素等特点。二者在地球化学特征上的明显差异是因为其成煤物质基础不同。 相似文献
6.
中国腐泥煤的岩石学特征 总被引:3,自引:0,他引:3
文章通过对中国12个煤田腐泥煤及共生有机岩的岩石学特征的研究,揭示了其与腐殖煤的差别。根据我国腐泥煤的显微组成特点,笔者划分出了7种显微岩石类型,它们代表了特殊的形成环境与生源输入。这些类型在地质分布上具有相当大的稳定性,亦可用作腐泥煤的宏观描述。 相似文献
7.
在石油、天然气、页岩气和煤层气资源勘探开发方面,镜质体反射率指标被公认是唯一可对比的烃源岩有机质成熟度评价指标。为准确测定窑街矿区海石湾井田油A层腐泥煤的有机质成熟度,采集井田钻孔煤岩样品,开展显微镜下显微成分反射光、荧光光学特征观测。测试发现,油A层腐泥煤中存在2种不同特征镜质组,一种为发荧光的镜质组,反射色低、反射率测值低;另一种为不发荧光镜质体,反射色高、反射率测值相对偏高。油A层沉积环境分层明显,上部为腐泥煤,显微成分以藻类体为主,含有大量的黄铁矿,反映深部沼泽强还原环境;下部显微成分以腐泥基质、基质镜质体、角质体为主,相较于上部,藻类体及黄铁矿含量明显降低,反映出其沉积物源发生变化,藻类等低等生物输入比例降低,高等植物物源比例增高,反映为相对较弱的还原环境。根据井田地层沉积环境、油A层腐泥煤显微组成及其与下部煤二层腐植煤的镜质组成熟度对比分析,认为油A层腐泥煤中不发荧光镜质体的反射率能够反映其真实的成熟度,与下部煤二层处于同一变质阶段。研究认识为开展腐泥煤有机质成熟度分析提供了新的方法、思路,当煤岩层中高等植物含量较少,或者与其相邻地层成熟度差异较大时,建议将局部测试结果与整个煤系各煤/岩层进行比对,同时结合其镜质体荧光特征和沉积环境综合判断分析。 相似文献
8.
本文是《实用煤相学》研究的另一篇论文,对组成不同煤相(Ⅰ1、Ⅰ2、Ⅱ和Ⅲ)的煤的类型进行了深入分析,论述了不同环境(煤相)决定了不同的成煤类型的观点。通过对不同煤型煤的显微组分(类脂组、镜质组和无机组分)组成和镜质组特征(荧光强度和反射率)的深入研究,划分出与四种煤相相对应的四种基本的类型:即强还原型腐泥煤或腐殖腐泥煤(Ⅰ1型)、强还原型腐泥腐殖煤或腐殖煤(Ⅰ2型)、较强还原型腐殖煤(Ⅱ型)和较弱还原型腐殖煤(Ⅲ型)。从而阐述了煤相与煤型之间的内在成因联系。为进一步表述“沉煤环境(煤相)—成煤类型(煤型)—煤质特征(煤质)”这一概略成因模型奠定了基础。 相似文献
9.
腐泥煤和腐植煤生物标志物色谱对比 总被引:1,自引:0,他引:1
从代表低、中、高三个煤化阶段的三对共生样品的可溶组分的色谱质谱(GC/MS)联机分析的结果看,饱和烃和芳烃的组成,在腐泥煤和腐植煤两个变质系列中始终存在明显差异。比如腐泥煤的碳数分布较宽,OEP值始终都低于共生腐植煤;所含的芳烃种类少,数量也少,有些大大低于共生的腐植煤有些腐植煤中的标志物在腐泥煤中找不到。 相似文献
10.
采用热重与测汞仪联用技术,对5种不同煤化程度的煤进行氧化热解实验,研究不同煤化程度煤的热解过程及煤中汞的释放规律。结果表明:X射线衍射(XRD)曲线中衍射峰的特征可反应煤化程度,衍射峰的高度越高,宽度越窄,煤化程度就越高。不同煤化程度的煤在氧气中热解,质量损失随煤化程度的加深而增大,且随着煤化程度的加深,氧化热解的起始温度、最大热分解温度、终止温度也逐渐升高。随着煤化程度的升高,煤中汞释放所需的时间逐渐增加,且汞释放最大值所对应的热重(TG)曲线热解率最大的温度随煤化程度的加深而升高。 相似文献
11.
Two thermal parameters, initial volatilization temperature (IVT) and average volatilization rate (AVR), have been determined by thermogravimetric analysis in argon for 38 coal samples ranging in rank from lignite to low-volatile bituminous. Both IVT and AVR are correlated with percent volatile matter and vitrinite reflectance.The IVT values increase gradually from about 250 to 445°C with increasing rank; however, a change in slope is observed in the region of high-volatile bituminous coals (from about 340°C to about 380°C) when IVT's are plotted against percent volatile matter or percent fixed carbon. The changes in slope near 340°C and near 380°C occur at “coalification jumps” recognized on the basis of changes in the optical and chemical character of the macerals. In general, AVR values decrease gradually with increasing rank for the lignite and sub-bituminous coals and for the medium- and low-volatile bituminous coals; however, a sharp increase in AVR occurs in high-volatile bituminous coals. The change in slope of the IVT curves and sharp increase in the AVR values for high-volatile bituminous coals reflect the development of new, higher vapor pressure organic compounds produced during this stage of the coalification process.A plot of AVR vs IVT reveals three regions which correspond to: (1) lignite and sub-bituminous coals; (2) high-volatile bituminous coals; and (3) medium- to low-volatile bituminous coals. 相似文献
12.
The fact that most Chinese coals are of a relatively high degree of coalification indicates that the metamorphism of Chinese coals has its own characteristics. As contact metamorphism and dynamic metamorphism have influenced the coals only to a restricted extent, they are not the causes of this distinguishing feature. Though geothermal metamorphism of coal occurs universally in China, the maximum subsidence as reflected by the thickness of coal measures and their overlying rock series is so small that the palaeo-temperature to which most Chinese coals were subjected was low and only low-ranking coals were formed. Hence, geothermal metamorphism is also not the principal cause of the higher ranking Chinese coals. Next to temperature, time is an important factor in geothermal metamorphism; the degree of coalification is dependent on the temperature and duration of heating that the coal has undergone.It is inferred that palaeogeothermal anomalies ought to be held responsible for most of the higher ranking Chinese coals. They are principally caused by magmatic intrusions, or by deep-seated faults, or by the uplift of the Moho with the corresponding uplift of the asthenosphere, and these three causes are interrelated. Telemagmatic metamorphism has so widely influenced Chinese coals that it accounts mainly for the majority of higher-rank Chinese coals. Consequently Chinese coals have first and universally been coalified by geothermal alteration to lower rank and then partially promoted by telemagmatic metamorphism to medium and high ranks. Based upon the patterns of magmatic intrusions and associated hydrothermal processes, the telemagmatic metamorphism of Chinese coals can be tentatively divided into the following types: (1) type a, produced mainly by hypabyssal or meso-epimagmatic intrusions; (2) type b, produced mainly by hydrothermalism from blind intrusive bodies; (3) type c, produced mainly by mesoepimagmatic and epimagmatic intrusions; and (4) type d, produced mainly by hydrothermalism and epimagmatic intrusions. Characteristics of coalification zones, wall rocks and coal itself may be used as criteria to differentiate the telemagmatic metamorphism from other kinds of metamorphism. Magmatic activities which caused the telemagmatic metamorphism and its extent are controlled by structural systems, especially by the latitudinal structural systems and other structural systems associated with the former. 相似文献
13.
大别山构造带东段杨山组煤的变质演化 总被引:2,自引:0,他引:2
采用地史分析与数值模拟相结合的研究方法,对下石炭统杨山组煤的变质演化历程进行了定性和定量研究。结果表明:杨山组煤的变质作用经历了海西旋回中期和燕山旋回中-晚期两个演化阶段,煤级在第一阶段异常低热古地热场中深成变质作用下达到焦煤,第二阶段却在异常高热古地热场导致的热变质作用下剧增至超无烟煤。在包括研究区在内的大别山构造带北麓,海西旋回中期可能具有冷盆的特征,而燕山旋回中-晚期却表现出热盆的性质。 相似文献
14.
Petrographic analyses were carried out on thin coals and coaly sediments from the Lower Carboniferous Mattson Formation at Clausen Creek and Jackfish Gap-Yohin Ridge in the northern part of the Liard Basin, northern Canada. The composition and optical characteristics indicate that the coals are high-volatile bituminous B, predominantly sapropelic (canneloid) and accumulated subaquatically.The coals are dominantly composed of inertinite-rich and exinite-rich durities with subsidiary inertites and clarodurites; vitrite is minor and liptite is rare. The inertinite-rich microlithotypes are dominated by semifusinite, but micrinite, semimacrinite and ?resino-inertinites are abundant. Sporinite, comprising megaspores, crassispores, tenuispores and miospores, is the dominant liptinite maceral with subsidiary cutinite and minor alginite. Except for pyrite, mineral matter is minimal.Three populations of telocollinite are observed: a low-reflectance variety (I), commonly associated with micrinite (as vitrinertite), displays weak brown fluorescence and a reflectance some 0.4-0.5% lower than type II; type II is non-fluorescing telocollinite, with intermediate reflectance (0.67-0.74% Rom), it occurs as vitrite and is also associated with micrinite; and a higher-reflectance telocollinite (III), having no fluorescence or association with micrinite, has variable reflectance (0.74-0.8% Rom) implying higher oxidation or gelification levels.The abundance of semimacrinite, macrinite and ?resino-inertinites in inertites and durites (I) suggests that much of the peat accumulated subaquatically. Furthermore, fluorescing vitrinite and an abundance of micrinite (derived by oxidation or coalification of bituminite), suggest that the coal accumulated under anaerobic conditions. The predominance of semifusinite in humic laminae and micrinite in sapropelic layers suggests extensive surface or near-surface oxidation of the peat. Oxidised sporinites suggest that they were wind-borne.Depositional environment is interpreted as marginal marine, perhaps in shallow lakes in the middle to upper delta plain. Peat accumulations probably began subaquatically at the oxygen-hydrogen sulphide interface, but periodic subaerial exposure and natural oxidation gave rise to the high inertinite coals. Upper Mattson coals are interbedded with algal laminites and probably accumulated in a lagoonal setting. 相似文献
15.
The Rocky Mountain basins of western North America contain vast deposits of coal of Cretaceous through early Tertiary age. Coalbed methane is produced in Rocky Mountain basins at depths ranging from 45 m (150 ft) to 1,981 m (6,500 ft) from coal of lignite to low-volatile bituminous rank. Although some production has been established in almost all Rocky Mountain basins, commercial production occurs in only a few. Despite more than two decades of exploration for coalbed methane in the Rocky Mountain region, it is still difficult to predict production characteristics of coalbed methane wells prior to drilling. Commonly cited problems include low permeabilities, high water production, and coals that are significantly undersaturated with respect to methane. Sources of coalbed gases can be early biogenic, formed during the early stages of coalification, thermogenic, formed during the main stages of coalification, or late stage biogenic, formed as a result of the reintroduction of methane-generating bacteria by groundwater after uplift and erosion. Examples of all three types of coalbed gases, and combinations of more than one type, can be found in the Rocky Mountain region. Coals in the Rocky Mountain region achieved their present ranks largely as a result of burial beneath sediments that accumulated during the Laramide orogeny (Late Cretaceous through the end of the Eocene) or shortly after. Thermal events since the end of the orogeny have also locally elevated coal ranks. Coal beds in the upper part of high-volatile A bituminous rank or greater commonly occur within much more extensive basin-centered gas deposits which cover large areas of the deeper parts of most Rocky Mountain basins. Within these basin-centered deposits all lithologies, including coals, sandstones, and shales, are gas saturated, and very little water is produced. The interbedded coals and carbonaceous shales are probably the source of much of this gas. Basin-centered gas deposits become overpressured from hydrocarbon generation as they form, and this overpressuring is probably responsible for driving out most of the water. Sandstone permeabilities are low, in part because of diagenesis caused by highly reactive water given off during the early stages of coalification. Coals within these basin-centered deposits commonly have high gas contents and produce little water, but they generally occur at depths greater than 5,000 ft and have low permeabilities. Significant uplift and removal of overburden has occurred throughout the Rocky Mountain region since the end of the Eocene, and much of this erosion occurred after regional uplift began about 10 Ma. The removal of overburden generally causes methane saturation levels in coals to decrease, and thus a significant drop in pressure is required to initiate methane production. The most successful coalbed methane production in the Rocky Mountain region occurs in areas where gas contents were increased by post-Eocene thermal events and/or the generation of late-stage biogenic gas. Methane-generating bacteria were apparently reintroduced into the coals in some areas after uplift and erosion, and subsequent changes in pressure and temperature, allowed surface waters to rewater the coals. Groundwater may also help open up cleat systems making coals more permeable to methane. If water production is excessive, however, the economics of producing methane are impacted by the cost of water disposal. 相似文献
16.
本文通过不同温、压实验条件下,不同煤级煤的应力-应变曲线及超微变形构造特征分析,深入探讨了不同煤化程度煤的变形行为及其影响因素。阐明了高温高压和差异应力作用是促使煤结构由无序向有序方向转化,使大分子结构有序畴和定向性增大的重要因素。论述了温度和压力在不同的煤级和不同的实验条件下,具有不同的作用。在中煤级阶段,虽然围压的增大可在一定程度上提高煤的强度,但温度的影响更为重要。较高煤级在小应变阶段,温度起主导作用;而到了大变形阶段,围压的作用又逐渐上升到主导地位。在整个变形过程中,定向压力都是不容忽视的重要因素。 相似文献
17.
H.-M. Schulz H. W. Hagemann M. Wolf A. Brammertz H.-J. Einbrodt 《Environmental Geology》1997,30(1-2):72-80
The fibrogenic and cytotoxic potential of coal mine dust is independent of the amount of quartz and other inorganic parameters.
Results of coal petrographical and organic geochemical investigations of coals and coal mine dust from the Ruhr and Ibbenbüren
Region of Germany demonstrate variations of organic dust amount possibly influencing these noxious properties. Coal mine dust
of high rank coals is characterized by a pronounced fibrogenic risk. This risk, independent of the quantity of quartz, is
probably based on shape variations of different coal macerals. With increasing coalification of the corresponding seam, the
vitrinite is enriched in its dust; however, lower concentrations have been determined for inertinite. Vitrinite shows constant
shapes and sizes independent of the rank of coal. Inertinite particles with elongated to fibrous shapes tend to larger sizes
with increasing coalification. Strikingly, coal mine dust from miners' lungs with high degrees of coal mine workers' pneumoconiosis
(CWP) is enriched in inertinite. In contrast, high cytotoxicities in cell tests are known for coal mine dust from low coalified
coals. High concentrations of phenolic compounds can be extracted by dichloromethane from low coalified coal mine dust. These
compounds, which are characterized by a high water solubility and therefore high bioavailability, explain the high cytotoxicities
of coal mine dust. Contamination of dust by diesel emissions in the coal mine can act as additionally supporting parameters
for extended cytotoxicities.
Received: 18 August 1995 · Accepted: 15 October 1995 相似文献
18.
Rank evaluation of South Brazilian Gondwana coals according to the American (American Society for Testing and Materials, ASTM) and German (Deutsche Industrie Normen, DIN) standard specifications or on the basis of Alpern's Universal Classification has too often led to conflicting results.When any attempt is made to determine the rank of Brazilian coals by using methods established for the Northern Hemisphere coals, two sorts of difficulties arise: namely, (1) the reflectence measurements do not indicate the real degree of coalification of the organic matter because of the liptinitic impregnations of the vitrinites, and (2) random reflectance values (Rran, moisture, volatile-matter and carbon contents as well as the calorific value do not correlate when plotted on the ASTM and DIN classification schemes.In addition, when rank determinations are carried out by using fluorescence measurements and geochemical analyses the results are at variance in relation to those determined by the conventional chemical and physical parameters.It is suggested that the rank evaluation of South Brazilian coals is far more meaningful if carried out by reflectance measurements on vitrinites along with fluorescence measurements on sporinites, alginites and coal extracts. 相似文献
19.
采用计算机曲线拟合方法对实验数据进行分峰处理,定量分析了9个中低煤阶高有机硫煤样的红外光谱(FT-IR)数据特征。研究表明,二硫醚与碳碳双键吸收峰面积比值(X1)、硫醇与碳碳双键吸收峰面积比值(X2)分别与Rmax以及有机硫含量(So,d)呈显著的正相关性。煤质参数相近,有机硫含量及其占全硫比例受微环境的影响。同一煤样中,二硫醚、硫醇、二硫化铁三种含硫结构红外参数均依次递减。低煤阶及低-中阶烟煤阶段,以二硫醚、硫醇为代表的有机硫与含氧官能团的红外参数呈现此消彼长关系,且在第二次煤化跃变点附近,参数急剧增大。高有机硫煤样随煤阶升高,脂肪链支链化程度下降,芳构化程度加大,与一般低硫煤结构演化特征相符。 相似文献
20.
R. R. Khassanov A. F. Islamov A. Kh. Bogomolov 《Moscow University Geology Bulletin》2013,68(4):228-233
This study presents the results of SEM-EDX analysis of the mineral components of coals from the Kama (Volga-Ural region) and Donets basins and discusses the characteristics of the depositional environments and conditions of coalification. The results reveal differences in the mineral composition of coals from these two basins. 相似文献