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1.
很低级变质岩石在沉积盆地中分布广泛。在成岩-低级变质作用演化过程中,随着变质程度的增加,油气、煤的演化阶段也会发生相应的变化。因此,很低级变质作用与石油、天然气、煤等能源矿产关系密切。本文系统总结了很低级变质作用研究的几个方面及其新进展,包括很低级变质带的划分、粘土矿物地质温压计、变质作用p_T_t轨迹及其在沉积盆地中的应用等等,并结合实例初步探讨了川西北若尔盖坳陷三叠系的很低级变质作用。研究表明,对沉积盆地中很低级变质作用的研究,对于划分成岩-变质界限,明确盆地的热成熟阶段,恢复盆地古地温、古构造史以及指导油气勘探等,都具有十分重大的理论和实际意义。 相似文献
2.
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
3.
中国煤的叠加变质作用 总被引:12,自引:0,他引:12
中国煤变质具有多阶段演化与多热源叠加变质的特点;部分中国煤经历过3个变质演化阶段:以深成变质作用为主的第1演化阶段。以多热源叠加变质作用为特征的第2演化阶段和以奠定煤变质格局为主的第3演化阶段。除煤的深成变质普遍存在外,区域岩浆热变质为另一种中国煤的主要变质模型;多热源叠加变质是中国大多数中、高煤级煤产生的主要原因,其中区域岩浆热变质作用的影响最显著;中国煤的叠加变质作用主要发生在第2演化阶段;文中归纳出5种叠加变质作用类型。 相似文献
4.
湘中涟源煤盆煤深成变质作用的表现 总被引:2,自引:0,他引:2
湘中涟源煤盆由于受周缘印支-燕山期岩浆活动的影响,测水组、龙潭组煤的岩浆热变质作用强列,表现得既典型又充分,将其以前的煤深成变质作用基本掩盖,形成了区域性煤变质的格局,并延续至今。本文透过现象,根据煤深成变质作用的蛛丝马迹,阐述了其在煤盆不同部位的表现:随着离印支-燕山期岩体由近到远,测水组、龙潭组煤的深成变质作用特征保存的范围从小到大,其特征也越来越明显。这为研究涟源煤盆煤的变质作用提供了新的内容。 相似文献
5.
深熔变质作用既受早、晚古生代隆起(或坳陷中次一级隆起)的控制,又受中、新生代特殊地质构造(莫氏面抬高、岛弧、地幔隆起等)影响,导致地壳厚度减薄,由于上地慢及岩石圈放射性物质温度增高,体积膨胀,热能由深部向浅部长期传递,形成异常地热场,煤级偏高是由隆起相关引起的。在此基础上模拟煤下伏层厚度参数公式及古地温参数公式,通过定量计算结果,靠近隆起附近,煤曾受古地温200~247℃,形成高变质煤及无烟煤,远离隆起,古地温137~190℃形成中、低变质煤,这种规律显著,与矿区煤层实际所遭受古地温影响结果基本是相似的,故深熔变质作用在煤级成因类型中起主导作用。 相似文献
6.
近来煤的深成热变质、古地温及区域地温梯度变化等对煤变质的影响,深受不少煤研究者重视。本文作者认为煤的盖层动压也是不可忽视的因素。成煤的整个过程是多因素的综合,前期受某种因素影响,后期有可能受另一因素影响;同一地区,往往有几个煤种,其成因也不是单一的;不同地区,同一种煤其变质原因也可能不一致。 相似文献
7.
河东煤田地史—热史模拟与煤变质演化 总被引:13,自引:0,他引:13
河东煤田是华北石炭二叠纪重要煤田之一.本文采用盆地数值模拟方法,建立了煤田地史一热史模型,恢复了煤变质演化历程,总结出煤级分布规律。 相似文献
8.
鸡西煤田煤的变质特征 总被引:2,自引:0,他引:2
鸡西煤田是我国重要的煤炭基地,煤类比较齐全,针对鸡西煤田煤的变质作用复杂,各种变质作用叠架的特点,从煤岩学,煤化学及岩石等几方面着重分析了煤的深成变质和区域岩浆热变质的特点,并进一步明确了深成变质作用奠定了鸡西煤田煤变质的基础,而区域岩浆热变质作用是形成中变质程度烟煤的主要因素。 相似文献
9.
湘赣中南部地区煤的岩浆热变质作用 总被引:6,自引:0,他引:6
湘赣中南部地区的煤主要是高变质煤。虽然深成变质作用存在,但煤本身变化显著,煤与石墨、天然焦同层异矿,煤层围岩蚀变和煤变质带展布与侵入岩体及火山岩的分布密切相关等,都证明岩浆热变质作用是湘赣中南部地区煤变质作用的主要类型。印支—燕山期的岩浆活动形成广阔的高温区,从而形成这一地区大量的高变质烟煤和无烟煤。侵入岩体周围形成煤变质正向环带,岩体群之间则形成反向环带;接触带煤变质呈现向石墨或天然焦两个不同的演化方向;叠加在深成变质作用基础上的岩浆热变质作用控制了这一地区煤变质带展布的格局。 相似文献
10.
宁夏煤炭资源丰富,煤类多,在区域和垂向上呈现出明显的规律性。晚古生代煤层以中、高变质的烟煤、无烟煤为主,中生代煤层以低变质的烟煤为主,从各含煤区分布看,贺兰山、香山含煤区多为高变质的烟煤和无烟煤,灵盐、固原含煤区以低变质烟煤为主,青铜峡-固原深断裂西部的煤变质程度明显高于东部。分析认为深成变质作用对各时代煤变质具有普遍意义,在此基础上,岩浆热力变质作用和动力变质作用也是导致局部地区煤变质增高的因素,如贺兰山含煤区的汝箕沟矿区,受隐伏岩浆热力影响,以岭大井田为中心,呈现北东向展布的半环带状煤级分带;香山含煤区各时代煤类分布方向与区域构造线方向一致,推测可能在深成变质作用下叠加了岩浆热力变质和动力变质作用。 相似文献
11.
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
12.
通过华北和美国煤层气地质条件的对比, 基于华北煤变质特点, 指出了区域岩浆热变质有利于提高煤层含气量和渗透率, 并对其作用机理进行了初步探讨.在中国, 经受燕山期岩浆侵入影响之前的煤级较低, 因此在快速增温的高温作用下, 煤层气再次发生即“叠加生烃”或“叠加成气”的潜力大, 孔、裂隙系统发育更趋完善, 区域岩浆热变质的生气时间晚而利于煤层气保存.叠加有区域岩浆热变质形成的煤级分带, 包括高煤级煤和中煤级煤在内都将明显提高煤的含气量和渗透率, 因此, 华北地区应重视在区域岩浆热变质煤中寻找煤层气勘探目标. 相似文献
13.
邢台隆东井田煤变质情况复杂,直接影响煤的工业利用。利用X-射线衍射(XRD)法探讨了区内不同变质程度煤的基本结构单元特征及煤变质规律。结果显示:垂向上,随着煤层埋藏深度的增加,层片间距d002值逐渐减小,层片堆积高度Lc和层片直径La值逐渐增大;平面上,离岩浆侵入体越近,煤层的层间距d002值越小,反之d002值越大。在煤种分布上,因受岩浆热源的影响,井田内煤种以旧城为中心向外呈带状分布,旧城附近为无烟煤,向外逐渐过渡为贫煤、瘦煤、焦煤、肥煤和气煤。区内煤变质作用主要受区域变质作用影响,并叠加了岩浆热变质作用。 相似文献
14.
区域岩浆热变质作用及其对我国煤质的影响 总被引:5,自引:0,他引:5
本文根据中国煤变质的特点分析了促使煤变质演化的地质条件,阐述了接触变质作用和动力变质作用的局限性,主要是深成变质作用使中国煤演化到低变质阶段,燕山期岩浆活动导致的区域岩浆热变质作用弥补了这一缺点,使很大一部分中国煤增高了煤级,形成了储量丰富,多用途的中、高变质煤。并根据岩浆性质、侵入规模、侵入层位和深度以及沉积盖层的封闭程度对区域岩浆热变质作用进行分类,划分出三个亚型:深成岩浆热变质作用、中深成岩浆热变质作用和浅成岩浆热变质作用,总结了区域岩浆热变质作用的鉴定特征及其对中国煤质的影响。 相似文献
15.
华北晚古生代煤变质演化及煤质预测 总被引:1,自引:0,他引:1
华北晚古生代煤具有中部和南部变质程度较高而南部边缘和北部低的特点。这是华北晚古生代经历了3个阶段变质演化的结果。华北地台稳定阶段除个别地区外,深成变质作用使绝大多数晚古生代煤只演化到低变质阶段;地台活化早期叠加的区域岩浆热变质作用造成部分低煤级媒提高到中、高变质阶段;地台活化晚期紫荆关断裂的右旋移动奠定了华北晚古生代煤变质分布的格局。根据岩浆性质、侵入规模等特点将区域岩浆热变质作用划分为3个亚型。区域岩浆热变质煤的分布受燕山期岩浆沿一定方向断续侵入的控制。从成因上阐述区域岩浆热变质作用的主要特点。基于地质因素分析和煤变质作用类型预测华北晚古生代煤级分布,新的预测增加了炼焦煤的储量,且部分已被钻探证实。 相似文献
16.
Daishe Wu Haiwen Deng Baoshan Zheng Wuyi Wang Xiuyi Tang Huayun Xiao 《Applied Geochemistry》2008,23(8):2082-2090
To determine the I distribution in Chinese coals, a nationwide survey was undertaken based on the distribution, periods of formation, rank and production yields of various coal deposits. A total of 305 coal samples were collected and their I contents were determined by catalytic spectrophotometry with pyrohydrolysis. The geochemistry of I during coalification (including both peat diagenesis and coal metamorphism) was assessed. It was found that the I contents of Chinese coals range from 0.04 mg kg–1 to 39.5 mg kg–1 and exhibit a lognormal distribution, with a geometric mean of 1.27 mg kg–1. Statistical correlation analysis and the observation that I contents increase with coal rank indicate that coal I is chalcophile in nature, and not generally organically bound. When peat developed into lignite through diagenesis, 95–99.9% of the original I was lost. The composition and structure of clay minerals present in the coal were controlled by the original depositional environment. The higher the I content of coals, the more likely the original sediments were affected by a marine environment. Iodine contents increased from lignite through sub-bituminous and bituminous coals to anthracite. This indicates that coal absorbed excess I from hydrothermal fluids during metamorphism (including geothermal metamorphism and telemagmatic metamorphism). The telemagmatic metamorphism was caused by magmatic activities that depended on the specific geological structure of the region. In China, most high-rank coals were formed by telemagmatic metamorphism. 相似文献