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中国东部地热资源开发潜力与建议 被引量:6
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作者 刁谦 牛树银 +6 位作者 孙爱群 真允庆 张福祥 宋涛 陈中 陈超 孙璐 《河北地质大学学报》 2019年第5期1-8,共8页
经过多年地热资源勘查实践,初步认为控制地热的因素是:热源主要来自深部的地幔楔;中–新生代中酸性火山–岩浆活动是形成地热资源和区域高地热场的重要控制因素;喜山期形成地热的温度要高于燕山期形成地热的温度;地表浅部的温泉群是勘... 经过多年地热资源勘查实践,初步认为控制地热的因素是:热源主要来自深部的地幔楔;中–新生代中酸性火山–岩浆活动是形成地热资源和区域高地热场的重要控制因素;喜山期形成地热的温度要高于燕山期形成地热的温度;地表浅部的温泉群是勘查深部地热的重要线索;区域构造背景(裂谷、碰撞及俯冲带)和局部深部构造(断裂、破碎带)是提供地热上升的通道;形成地热田不仅要具备良好的储层,还要蕴藏地热温度和一定厚度的盖层。可概括为(热)源–通(道)–储(层)–盖(层)4个字的规律。我国东部地区地热资源十分丰富,以地热资源分布的空间位置,分为五个方面来阐述:即花岗岩地热、火山(岩)地热、矿山地热、油气田地热和城市地热。其中矿山地热和火山(岩)会伴有“热害”。为了加速我国东部地热资源勘查和开发进程,提出关于对中、低温热水型地热发电、开发立法和优选地热靶区、化“害”为“利”的攻关科研、以“EGS”经济支撑和热水勘查钻孔长期保存的五点建议。 展开更多
关键词 中国东部 花岗地热 火山()地热 矿山地热 油气田地热 城市地热
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The transport of water in subduction zones 被引量:64
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作者 ZHENG YongFei CHEN RenXu +1 位作者 XU Zheng ZHANG ShaoBing 《Science China Earth Sciences》 SCIE EI CAS CSCD 2016年第4期651-682,共32页
The transport of water from subducting crust into the mantle is mainly dictated by the stability of hydrous minerals in subduction zones. The thermal structure of subduction zones is a key to dehydration of the subduc... The transport of water from subducting crust into the mantle is mainly dictated by the stability of hydrous minerals in subduction zones. The thermal structure of subduction zones is a key to dehydration of the subducting crust at different depths. Oceanic subduction zones show a large variation in the geotherm, but seismicity and arc volcanism are only prominent in cold subduction zones where geothermal gradients are low. In contrast, continental subduction zones have low geothermal gradients, resulting in metamorphism in cold subduction zones and the absence of arc volcanism during subduction. In very cold subduction zone where the geothermal gradient is very low(?5?C/km), lawsonite may carry water into great depths of ?300 km. In the hot subduction zone where the geothermal gradient is high(>25?C/km), the subducting crust dehydrates significantly at shallow depths and may partially melt at depths of <80 km to form felsic melts, into which water is highly dissolved. In this case, only a minor amount of water can be transported into great depths. A number of intermediate modes are present between these two end-member dehydration modes, making subduction-zone dehydration various. Low-T/low-P hydrous minerals are not stable in warm subduction zones with increasing subduction depths and thus break down at forearc depths of ?60–80 km to release large amounts of water. In contrast, the low-T/low-P hydrous minerals are replaced by low-T/high-P hydrous minerals in cold subduction zones with increasing subduction depths, allowing the water to be transported to subarc depths of 80–160 km. In either case, dehydration reactions not only trigger seismicity in the subducting crust but also cause hydration of the mantle wedge. Nevertheless, there are still minor amounts of water to be transported by ultrahigh-pressure hydrous minerals and nominally anhydrous minerals into the deeper mantle. The mantle wedge overlying the subducting slab does not partially melt upon water influx for volcanic arc magmatism, but it is hydrated at first with the lowest temperature at the slab-mantle interface, several hundreds of degree lower than the wet solidus of hydrated peridotites. The hydrated peridotites may undergo partial melting upon heating at a later time. Therefore, the water flux from the subducting crust into the overlying mantle wedge does not trigger the volcanic arc magmatism immediately. 展开更多
关键词 Subduction zones Oceanic crust Mantle wedge Thermal structure Hydrous minerals Water transport Arc magmatism
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Crustal velocity structure in the Emeishan large igneous province and evidence of the Permian mantle plume activity 被引量:38
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作者 XU Tao ZHANG ZhongJie +5 位作者 LIU BaoFeng CHEN Yun ZHANG MingHui TIAN XiaoBo XU YiGang TENG JiWen 《Science China Earth Sciences》 SCIE EI CAS CSCD 2015年第7期1133-1147,共15页
The Emeishan large igneous province(ELIP) in SW China is interpreted to be associated with an ancient mantle plume. Most of the constraints on the role of mantle plume in the generation of the Emeishan flood basalts w... The Emeishan large igneous province(ELIP) in SW China is interpreted to be associated with an ancient mantle plume. Most of the constraints on the role of mantle plume in the generation of the Emeishan flood basalts were provided by geological and geochemical methods, but the geophysical investigation is very limited. In order to better understand the deep structure and features of ELIP, we have studied the crustal velocity structure using the data acquired from the Lijiang-Panzhihua-Qingzhen wide-angle seismic profile. This profile crosses the three sub-zones of the ELIP(the inner, intermediate, and outer zones), divided based on the differential erosion and uplift of the Maokou limestone. The results provided by the active source seismic experiment demonstrate:(1) The average depth of the crystalline basement along the profile is about 2 km.(2) The middle crust in the Inner Zone is characterized by high-velocity anomalies, with the average velocity of 6.2-6.6 km/s, which is about 0.1– 0.2 km/s higher than the normal one. The velocity of the lower crust in the inner zone is 6.9-7.2 km/s, higher than those observed in the intermediate and outer zones(6.7-7.0 km/s). Relatively low velocity anomalies appear in the upper, middle and lower crusts near the junction of the inner zone and intermediate zone, probably due to the effect of the Xiaojiang fault(XJF).(3) The average velocity of the crust is comparatively low on both sides of XJF, especially on the east side, and the average velocity of the consolidated continental crust is also low there. This may suggest that the XJF extends at least down to 40 km deep, even beyond through the crust.(4) The depth to the Moho discontinuity decrease gradually from 47-53 km in the inner zone, via 42-50 km in the intermediate zone to 38-42 km in the outer zone. In the inner zone, the Moho uplifts locally and the(consolidated) crust is characterized by high-velocity anomalies, which are likely related to intensive magma intrusion and underplating associated with melting of plume head. Overall the crustal velocity structure in the study area recorded the imprint left by the Permian Emeishan mantle plume. 展开更多
关键词 Emeishan large igneous province Permian mantle plume wide-angle seismic reflection/refraction data Lijiang-Panzhihua-Qingzhen profile crustal velocity
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