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地热学岩石圈厚度体现了长时间尺度上的岩石圈热学作用,可以反映地球深部动力学过程。介绍了地热学岩石圈厚度的计算方法,探讨了这种方法的参数选取和影响因素,并对比了地热学岩石圈厚度与其他类型岩石圈厚度的差异及其原因。结果表明:地热学岩石圈厚度的计算结果受地壳分层结构、岩石生热率、岩石热导率以及地表热流的影响;地质历史时期内的地壳分层结构要结合岩石学、岩石地球化学等领域最新研究成果得出;地表热流较低(42mW·m-2)时,岩石圈地幔生热率对计算结果的影响非常显著,岩石圈地幔生热率变化0.02μW·m-3,地热学岩石圈厚度计算结果最高变化40km,岩石圈地幔热导率每变化0.2W·(m·K)-1,地热学岩石圈厚度变化15km;地表热流为60mW·m-2时,岩石圈地幔生热率每变化0.02μW·m-3,地热学岩石圈厚度变化3km,岩石圈地幔热导率每变化0.2W·(m·K)-1,地热学岩石圈厚度变化5km;地表热流增高1mW·m-2,地热学岩石圈厚度约增加3km;地热学岩石圈厚度与岩石学、地震学岩石圈厚度略有差异,其差异取决于流变边界层的厚度。 相似文献
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热岩石圈厚度是研究盆地的构造演化和板块动力学的重要参数,本文通过实测数据构建地壳分层模型,根据热传导的基本原理,计算了冀中坳陷中部的Moho面温度以及热岩石圈厚度,并探讨其地热学意义。结果表明:冀中坳陷中部的Moho面温度分布在500~600℃,西南侧整体温度较东北部高,热岩石圈厚度介于102~122km,其平面展布特征与华北克拉通热岩石圈厚度西厚东薄的特征相吻合,为华北克拉通受太平洋板块西向俯冲导致东部遭受破坏提供了依据,并且较薄的岩石圈使热流更易传导到地壳浅部,成为了该地区热异常的成因背景。 相似文献
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Cao Hui He Lanfang He Zhanxiang Zhao Xiaoming 《应用地球物理》2006,3(4):248-254
High-frequency electromagnetic sounding is an electromagnetic exploration method using the natural high-frequency electromagnetic field as a field source. It has higher resolution and greater depth penetration than the direct current method and is especially fit for geothermal energy exploration and low- and mid-level groundwater detection. We introduce a successful application of high-frequency electromagnetic sounding for evaluating geothermal water resources. The high frequency electromagnetic system (MT-USA with a frequency range from 10 KHz to 1 Hz) is first applied to sample field data from China. A remote reference station is used to assure sampled data quality. We then perform 2D inversion image processing with the electrical method data. The results basically indicate the spatial distribution of underground geothermal water and provide favorable clues to finding the sources of the subsurface geothermal water in this area. 相似文献
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成矿古水热系统与热液铀矿床研究历史,现状与展望 总被引:3,自引:0,他引:3
介绍了成矿古水热系统与热液铀矿床研究的历史与现状。指出了以往研究只强调水及溶质起源,而对热源重视不够的欠缺。同时,结合热液铀 矿床的研究情况,对成矿古水热系统研究的下一步发展方向进行了展望。 相似文献
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Geological features of Larderello-Travale and Mt.Amiata geothermal areas (southern Tuscany, Italy) 总被引:1,自引:0,他引:1
FaustoBatini AndreaBrogi AntonioLazzarotto DomenicoLiotta EnricoPandeli 《《幕》》2003,26(3):239-244
This paper summarises the geological features of the Larderello-Travale and Monte Amiata areas, where the world‘s most ancient exploited geothermal fields are located. In both geothermal areas, three regional tectonostratigraphic elements are distinguished, from the top: (a) Late Miocene-Pliocene and Quaternary,continental to marine sediments; (b) the Ligurian and Sub-Ligurian complexes, which include remnants of the Jurassic oceanic realm and of the transitional area to the Adriatic margin, respectively; (c) the Tuscan Unit(Tuscan Nappe), composed of sedimentary rocks rang-ing in age from Late Triassic to Early Miocene. The sub-stratum of the Larderello and Monte Amiata areas isreferred to as the Tuscan Metamorphic Complex. This ismainly known through drilling of geothermal wells. This complex is composed of two metamorohic units: the upper Monticiano-Roccastrada Unit and the lower Gneiss Complex. The Monticiano-Roccastrada Unit consists of(from top to bottom): the Verrucano Group,the Phyllite-Quartzite Group and the Micaschist Group.The Gneiss Complex consists only of pre-Alpine poly-metamorphic gneiss. The Tuscan Metamorphic Complexis affected by contact metamorphism by Plio-Quater-nary granitoids and their dy ke swarms. Hydrothermal phenomena still occur in both geothermal fields. The Larderello-Travale and Mt. Amiata geothermal fields are located in the inner Northern Apennines, in an area that has been subject to extension since the ?Early-Mid-dle Miocene. Two main extensional events are well expressed in the structures of the geothermal areas. The first extensional event (?Early-Middle Miocene) deter-mined the tectonic delamination of the Ligurian Units and Tuscan Nappe. The second extensional event (LateMiocene-Present) is characterized by high-angle nor-mal faults bounding the Neogene tectonic depressions of southern Tuscany. 相似文献
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庞忠和 《水文地质工程地质》2006,33(1):87-87
由美国地热资源委员会和国际地热协会主办,英国剑桥Elsevier出版社出版的《地热学》(Gepthermics)杂志最近出版了地热流体化学与同位素研究论文专集。 相似文献