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深水环境下进行大地电磁数据采集,信号幅值微弱,高频分量被严重衰减;仪器承载的环境压力巨大,且伴随底流推曳、淤泥吸附等不利因素;海上作业情况复杂多变,带给设备投放与回收诸多困难.针对这些特殊问题,从理论上分析了大地电磁场在海水及其以下层状介质中的传播规律,计算了电场与磁场随不同水深的衰变比值,研讨了与仪器上浮速度相关的物理因素;从技术上阐述海底大地电磁仪的工作原理,包括信号传感器、数据采集器、声控释放单元以及机械组装部件等等.整套仪器信号分辨率达到nV级,频带宽度为10~0.3×10-3 Hz,最大工作水深4000 m.该仪器搭载“海洋六号”科学考察船,在我国南海中沙群岛海域进行了国内首次深水环境下的大地电磁数据采集试验.结果显示,所研发的仪器性能指标吻合先前的理论推算值,达到设计要求.我国的海底大地电磁探测技术已完全享有自主的知识产权. 相似文献
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海底电磁接收机主要用于海底大地电磁与可控源电磁信号高精度观测。针对现有海底电磁接收机(OBEM-Ⅲ型)体积大、功耗大、成本高等不足,开展了小型化、低功耗、低成本方面的技术研究。MicrOBEM小型海底电磁接收机开发了新的低功耗控制单元、低功耗前置放大器,配置了低功耗磁通门传感器,采取先进的电源管理技术,使得整机功耗由现有海底电磁接收机(OBEM-Ⅲ型)的1 600 mW下降至500 mW(搭载感应式磁传感器配置)以内。针对传统的声学释放器昂贵、笨重(需要匹配更多的浮力材料)等问题,通过集成水声通讯模块,并增加外置的电腐蚀释放装置方式实现释放回收,MicrOBEM仅需一个直径为17 in(1 in=2.54 cm)的玻璃浮球作为浮体,大幅降低仪器的体积和硬件成本,提升了设备的集成度和作业效率。MicrOBEM的体积(不含测量臂等)相比OBEM-Ⅲ减少3/4,功耗减少2/3,成本降低1/2,并于2021年3月在南海南部开展了深水大地电磁试验,其大地电磁测量功能得到初步验证,具有小体积、低功耗、低成本的优势。 相似文献
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The magnetotelluric (MT) survey along the Zhada (札达)-Quanshui (泉水) Lake profile on the western margin of the Qinghai (青海)-Tibet plateau shows that the study area is divided into three tectonic provinces by the Yalung Tsangpo and Bangong (班公)-Nujiang (怒江) sutures. From south to north these are the Himalayan terrane, Gangdise terrane, and Qiangtang (羌塘) terrane. For the study area, there are widespread high-conductivity layers in the mid and lower crust, the top layers of which fluctuate intensively. The high-conductivity layer within the Gangdise terrane is deeper than those within the Qiangtang terrane and the Himalaya terrane, and the deepest high-conductivity layer is to the south of the Bangong-Nujiang suture. The top surface of the high-conductivity layer in the south of the Bangong-Nujiang suture is about 20 km lower than that in the north of it. The high-conductivity layer within the Gangdise terrane dips toward north and there are two high-conductivity layers within the crust of the southern Qiangtang terrane. In the upper crust along the profile, there are groups of lateral electrical gradient zones or distortion zones of different scales and occurrence indicating the distribution of faults and sutures along the profile. According to the electrical structure, the structural characteristics and space distribution of the Yalung Tsangpo suture,Bangong-Nujiang suture, and the major faults of Longmucuo (龙木错) and Geerzangbu are inferred. 相似文献
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青藏高原西缘壳幔电性结构与断裂构造: 札达-泉水湖剖面大地电磁探测提供的依据 总被引:4,自引:0,他引:4
青藏高原西缘札达至泉水湖剖面大地电磁探测结果表明, 研究区被雅江缝合带、班公-怒江缝合带划分为3个构造区域, 由南至北分别为喜玛拉雅地体、冈底斯地体和羌塘地体.研究区内普遍存在中下地壳高导层, 高导层的顶面埋深起伏较大, 冈底斯内的高导层埋深大, 羌塘和喜玛拉雅地体内的高导层埋深较浅.在班公-怒江缝合带南侧高导层埋深最大, 班公-怒江缝合带南北两侧高导层埋深存在一个约20km的错动.冈底斯地体内的地壳高导层呈北倾形态, 南羌塘的地壳具有双高导层.沿剖面的上地壳存在多组规模不等、产状不同的电性梯度带或畸变带, 反映了沿剖面地区的缝合带与断裂带分布情况.根据电性结构特征, 推断了雅江缝合带、班公-怒江缝合带以及龙木措、噶尔藏布等主要断裂的构造特征与空间分布. 相似文献
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Eclogite, one of the important lithologies in the main hole of the Chinese Continental Scientific Drilling (CCSD) Project, exists above the depth of 3 245 m and has distinctive responses of gamma-ray, compensating density and neutron well-logging, and so on. In this study, according to the diversities of minerals and chemical components and well-logging responses, eclogites are classified from three aspects of origin, content of oxygen, and sub-mineral. We studied the logging identification method for eclogite sub-classes based on multi-element statistics and reconstructed 11 kinds of eclogite. As a result, eclogites can be divided into 6 types using well logs. In the light of this recognition, the eclogite in the main hole is divided into 20 sections, and the distribution characters of all sub-classes of eclogite are analyzed, which will provide important data for geological research of CCSD. 相似文献
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在强噪声环境下,由于相关噪声的影响,准确地估算大地电磁张量阻抗越来越困难.研究一种处理相关噪声问题的信噪分离方法,即采用最小二乘Robust方法,利用相关噪声相对较小的远参考站磁场信号求取分离张量,将本地磁场的观测信号分离为MT信号和噪声,估算大地电磁张量阻抗.分别对模拟数据与实测数据进行处理, 结果表明,信噪分离方法能够分离出较强的相关噪声,给出的视电阻率和相位曲线比最小二乘Robust方法和远参考方法获得的更加平滑,处理效果明显.研究表明,在处理受相关噪声影响的MT数据中,信噪分离方法具有明显的优势. 相似文献