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1.
基于飞艇的时间域地空电磁探测系统,具有勘探深度大、效率高、空间分辨率高、飞行控制容易等优势.但在低空飞行测量过程中,飞艇飞行高度、航迹、姿态等受风向、大气气流、地形、地面局部温度场变化等影响而发生变化,导致固定在艇囊前端的接收线圈发生运动,切割大地磁场,产生了电磁噪声、运动噪声、基线漂移等,从而影响电磁数据的电阻率成像质量.因此,研究地空电磁信号中多种噪声的去除方法,对数据的反演解释非常重要.由于地空电磁信号中有效信号频带与部分噪声频带相重叠,使用传统滤波或消噪方法具有一定局限性.因此,本文提出一种综合小波去噪法:根据地空电磁信号的特点,采用sym8小波基;基于小波多分辨率分析原理,利用小波高尺度近似分量估计基线漂移,以校正电磁数据中的基线;基于小波阈值收缩原理,采用5层小波分解、极小极大阈值配合硬收缩函数的消噪方法,来压制数据中的其余噪声.最后,通过异常环模型的理论响应和实测数据进行算法的验证,结果表明这种综合消噪法对多种噪声均有很好的抑制作用,是一种实用有效的时间域地空电磁数据消噪方法. 相似文献
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近年来,大地电磁法作为深部找矿与地球电性探测的感应类电法有了迅猛的发展,国内电磁法仪器基本上都是美、加、德三国地球物理公司所生产,中国已进口了几百套这些设备.随着中国国力的增强,地面电磁探测系统的自主研制被提到议事日程.从2010年开始,中国科学院地质与地球物理研究所牵头,联合中科院院内及高校等单位在国土资源部探测技术与实验研究专项(SinoProbe)中承担了《地面电磁探测(SEP)系统研制》项目的研究,目前已取得阶段性成果.本文详尽地论述了大地电磁法仪器发展现状、系统研究目标和总体设计,SEP发射系统、感应式磁传感器、分布式电磁数据采集系统、3D EM数据正反演成像软件和可视化数据管理软件、SEP系统集成和野外测试结果,最后对地面电磁探测系统研究进行了讨论、总结和展望. 相似文献
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《地球物理学进展》2017,(4)
随着瞬变电磁法的研究逐渐转向高海拔山区等地形地质条件复杂地区进行深部勘探,地空瞬变电磁法得到了更多的关注.地空瞬变电磁法结合了地面瞬变电磁法和航空瞬变电磁法各自的特点,相比地面瞬变电磁法,能有效提高野外工作效率;相比航空瞬变电磁法,勘探深度更大、采集信号信噪比更高.近几年来,地空瞬变电磁法得到了较快的发展.本文回顾了地空瞬变电磁法的历史发展与现状,总结了地空瞬变电磁法研究的最新进展,并对地空瞬变电磁法的各种装置类型进行了相关评述和总结,指出目前地空瞬变电磁法的问题主要在于解释水平跟不上,大都仍采用基于地面瞬变电磁的数据解释方法.为了进一步丰富地空瞬变电磁勘查体系,从仪器装备、数据预处理和处理技术、正反演及数据解释等方面对地空瞬变电磁法的发展方向进行了总结. 相似文献
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中国南方地区地质灾害频发,遭受经济损失巨大,其中滑坡灾害危害最为严重.目前对于复杂地区滑坡地下结构探测方面的研究还存在薄弱环节,还缺少快速可靠的探测地下结构的手段.常规地面地球物理方法在复杂地形条件下存在施工困难的问题.应用数值模拟对比分析了回线源和电性源发射条件下场的分布特征和变化规律,为仪器研制和野外采集方案提供参考.针对滑坡地质灾害调查研制了基于旋翼无人机的回线源地-空瞬变电磁系统.该系统使用旋翼无人机作为飞行平台,目前地面发射机功率为10 kW,最大电压为250 V,最大电流为40 A,发射时基4/10/20 ms可选,下降沿为线性沿,同步方式为晶体+GPS;机载接收机采样率250 kHz,在关断后采集二次场并自动组道叠加,连续点号采集,输入等效噪声0.5μV;空中接收线圈为空心线圈,频率为30 kHz,等效面积3100 m2.利用新研发的基于旋翼无人机的回线源地-空瞬变电磁系统在贵州发耳典型滑坡体上开展试验研究.对野外试验中地-空与地面瞬变电磁的实测曲线进行了对比分析.试验结果表明,新研制的地-空瞬变电磁系统稳定可靠,能够快速获取复杂地形条件下小范围内的... 相似文献
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《地球物理学进展》2017,(5)
近年来,利用无人机平台搭载航空电磁勘探设备已经成为一种发展趋势,本文首先阐述了半航空瞬变电磁系统在国内外的研究进展,然后介绍了一种全新的利用无人直升机搭载的半航空瞬变电磁勘探系统(S-ATEM).S-ATEM系统由发射子系统、接收子系统、数据处理子系统和飞行平台组成,本文对各子系统关键技术及系统指标进行了详细阐述.S-ATEM系统采用无人直升机作为飞行平台,具有发射功率大、长航时、多分量、大探深、机动灵活、可移植性强等特点.利用S-ATEM系统在山东昌邑莲花山铁矿区开展了电磁探测飞行试验,并将探测结果与已知钻孔资料进行了比对,结果表明S-ATEM能够有效反映地下介质的电阻率变化,验证了S-ATEM系统的有效性和实用性. 相似文献
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《中国科学:地球科学》2020,(9)
人工源电磁探测技术作为地球物理电磁探测的重要分支,在过去十年中得到快速发展.中国陆续攻克电磁探测方法的基础理论、正反演方法和核心装备技术难题,在地面电磁法、航空电磁法及海洋电磁法等领域的研究中取得了突破性进展,出现空-地-井立体探测和频-时域多尺度电磁探测新技术,实现对地下10km深度范围内目标体的有效探测.为了进一步满足国家在深部地质找矿、城市地下空间探测、地质灾害探测和监测等方面的迫切需求,仍需继续推动地球物理勘探方法的技术创新,发展高效、可靠、经济的新装备. 相似文献
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为了增大瞬变电磁勘探深度,充分利用晚期道数据,针对瞬变信号频带宽等特点和低噪声运放放大电路的设计原则,通过对放大电路的噪声来源和降低噪声措施的研究,设计了基于超低噪声运算放大芯片LT1028的低噪声差分前置放大电路.建立模型对噪声进行计算和仿真,得出的单运放噪声和总噪声分别为3.2uVrms和4.53uVrms.对实际电路进行噪声测试,得到的噪声频谱图表明在0~100kHz的频率范围内,电路噪声在10~20uVrms之间,设计的差分前置放大电路具有很低的噪声水平,能够满足瞬变信号前置放大的需要. 相似文献
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采用地面异常线圈对直升机时域航空电磁探测系统进行标定时,发射-接收线圈姿态的变化将导致实测数据产生误差,影响标定的精度.本文基于时间域航空电磁系统,计算了发射-接收线圈姿态任意变化时异常线圈的电磁响应,提出了主成分分析-径向基神经网络(PCA-RBF)的拟合算法,采用主成分分析法提取飞行几何参数的贡献率,利用径向基神经网络法对电磁响应进行了测线剖面的批量数据拟合,并对理论仿真和河南桐柏直升机飞行试验数据进行拟合分析,单一异常体理论数据的绝对误差平均值小于20nV·m-2,双异常体理论数据绝对误差平均值为160nV·m-2.野外实测数据在异常线圈中心位置的拟合相对误差小于1%,整条剖面测线的拟合相对误差小于±6%,平均值为2.5%.结果表明PCA-RBF拟合算法能够较好地实现航空电磁系统飞行参数的拟合,为航空电磁系统海量实测数据的快速处理提供了新方法. 相似文献
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全波形时域航空电磁测量具有解释精度高、分辨率高等优点,已成为新一代时域航空电磁探测发展的趋势.为此,本文基于无源有限差分法,将发射电流离散为若干梯形脉冲元,将脉冲元在时间上产生的电磁场转换为空间初始场,在差分迭代过程中分时引入差分方程,逐步将有源有限差分方程转换为无源有限差分方程,最终实现了发射电流为任意波形时,全波形时间域航空电磁响应的三维数值计算.计算结果表明:在梯形波发射时,对于典型地电模型的航空时间域电磁响应,计算稳定时间大于10 ms;与积分方程法相比,发射线圈中心点二次场响应平均误差小于1%.任意源三维全波形数值计算的实现为全波形三维反演和仪器设计奠定了基础. 相似文献
11.
Feasibility of signal enhancement with multiple grounded‐wire sources for a frequency‐domain electromagnetic survey 
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下载免费PDF全文 Haigen Zhou Yao Yao Changsheng Liu Jun Lin Lili Kang Gang Li Xinsen Zeng 《Geophysical Prospecting》2018,66(4):818-832
Frequency‐domain electromagnetic methods with a grounded‐wire source are powerful tools in geophysical exploration. However, the signal may be too weak to guarantee the quality of survey data in complex electromagnetic environments, especially when the receiver is located in the air for the newly developed grounded‐source airborne frequency‐domain electromagnetic method. In this paper, a signal enhancement method with multiple sources is proposed to solve this problem. To evaluate the signal enhancement effect, we compared the signals generated by a single source and multiple sources with equal electric moment. The signal differences caused by synchronisation error and separation distance between source elements were analysed, and the methods to achieve maximum signal were introduced. Besides, we discussed the interaction between adjacent source elements to ensure the system safety, including the changes in output current and the safe distance between two sources using a dual‐source model. Lastly, a comprehensive field experiment was designed and conducted to test the multiple‐source method. The data processing results are comparable for single and dual sources, and the signal‐to‐noise ratio of dual source is higher in the field test. The subsurface resistivity structure at the test site is consistent with the previous controlled‐source audio‐frequency magnetotellurics method. These results show that signal enhancement with multiple sources is feasible. This study provides guidance to the application of multiple sources in field surveys when the survey environment is complex and rigorous. 相似文献
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A new marine controlled‐source electromagnetic receiver with an acoustic telemetry modem and arm‐folding mechanism 下载免费PDF全文
下载免费PDF全文 We developed a new marine controlled‐source electromagnetic receiver for detecting methane hydrate zones and oil and gas reservoirs on the seafloor, which is not imaged well by seismic reflection surveys. To determine the seafloor structure, the electromagnetic receiver should have low noise, power consumption, clock drift error, and operating costs while being highly reliable. Because no suitable receiver was available in our laboratory, we developed a new marine controlled‐source electromagnetic receiver with these characteristics; the receiver is equipped with acoustic telemetry modem and an arm‐folding mechanism to facilitate deployment and recovering operations. To demonstrate the applicability of our new receiver, we carried out a field experiment offshore of Guangzhou in the South China Sea, where methane hydrates have been discovered. We successfully obtained controlled‐source electromagnetic data along a profile about 13 km long. All six new receivers were recovered, and high‐quality electromagnetic data were obtained. Relatively high apparent resistivity values were detected. The results of the offshore field experiment support the claim that the electromagnetic data obtained using the new receiver are of sufficient quality for the survey target. 相似文献
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海洋天然气水合物资源调查中,电磁法已成为地震勘探最有效的补充手段之一,而我国海洋水合物电磁探测中的拖曳式电场接收机此前是空白.本文从方法原理、仪器设备和海洋试验等方面,对海洋拖曳式水平电偶极-偶极方法进行研讨.建立三维电阻率模型,进行数值模拟,讨论收发距、发射频率、拖曳装置离海底高度等参数与电场异常响应的关系,针对特定模型给出了最佳观测参数以指导仪器硬件设计与海洋测试.在此基础上,采用高级嵌入式计算机的智能化控制、前端低噪声斩波放大、高精度同步采集等技术,研制了由拖体、承压舱、采集电路、低噪声电场传感器等组成的海洋拖曳式水平轴向电场接收机,其系统噪声达到2 nV/√HZ
@(1~100Hz).将自主研制的电场接收机用于国内首次拖曳式电偶极-偶极方法的海洋试验与评估,并对海试资料进行了处理与分析.研究结果表明,所研发的仪器达到了设计指标,能够用于海洋天然气水合物调查. 相似文献
15.
Marina G. Persova Yuri G. Soloveichik Georgy M. Trigubovich Denis V. Vagin Petr A. Domnikov 《Geophysical Prospecting》2014,62(5):1193-1201
A large closed wire loop is generally used in field experiments for testing airborne electrical exploration equipment. Thus, methods are required for the precise calculation of an electromagnetic response in the presence of a closed wire loop. We develop a fast and precise scheme for calculating the transient response for such a closed loop laid out at the surface of a horizontally layered conductive ground. Our scheme is based on the relationship between the magnetic flux flowing through a closed loop and the current induced in it. The developed scheme is compared with 2D and 3D finite‐element modelling for several positions of an airborne electromagnetic system flying over a closed loop. We also study the coupling effect between the current flowing in the closed loop and the current flowing in the horizontally layered conductive medium. The result shows that for the central position of the transmitter, the difference between axisymmetrical finite‐element modelling and our scheme is less than 1%. Moreover, for the non‐coaxial transmitter–receiver–loop system, the solution obtained by our scheme is in good agreement with full 3D finite‐element modelling, and our total simulation time is substantially lower: 1 minute versus 120 hours. 相似文献
16.
A novel fixed-source electromagnetic system has been developed. The transmitter is a large rectangular loop or grounded dipole. The transmitted waveform consists of up to five superimposed pure sinusoids at well-separated frequencies. The receiver measures the amplitude and phase at two frequencies from a single receiver coil. The amplitude ratio is routinely calculated. Field trials with both surface and downhole configurations show that the method has advantages over the more traditional frequency-domain Turam type and downhole electromagnetic (DHEM) systems. Among such advantages are the use of a single receiver coil and the removal of noise due to free-space variations in transmitter-receiver geometry. The latter is important for DHEM surveys. In terms of field procedures and quantities measured, the system is similar to time-domain methods. 相似文献
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Recent advancements in geophysical exploration have been realized through reliably integrating unmanned aerial vehicle platforms with lightweight, high-resolution magnetometer payloads. Unmanned aerial vehicle aeromagnetic surveys can provide a contemporary data product between the two end-members of coverage and resolution attained using manned airborne and terrestrial magnetic surveys. This new data product is achievable because unmanned aerial vehicle platforms can safely traverse with magnetometer payloads at flight elevations closer to ground targets than manned airborne surveys, while also delivering an increased coverage rate compared to walking conventional terrestrial surveys. This is a promising new development for geophysical and mineral exploration applications, especially in variable terrains. A three-dimensional unmanned aerial vehicle aeromagnetic survey was conducted within the Shebandowan Greenstone Belt, northwest of Thunder Bay, Ontario, Canada, in July 2017. A series of two-dimensional grids (∼500 m × 700 m) were flown at approximate elevations of 35, 45 and 70 m above ground level using a Dà-Jiāng Innovations multi-rotor unmanned aerial vehicle (S900) and a GEM Systems, Inc., Potassium Vapour Magnetometer (GSMP-35U). In total, over 48 line-km of unmanned aerial vehicle aeromagnetic data were flown with a line spacing of 25 m. The collected aeromagnetic data were compared to a regional heliborne aeromagnetic survey flown at an elevation of approximately 85 m above the terrain, with a line spacing of 100 m, as well as a follow-up terrestrial magnetic survey. The first vertical derivative of the gathered unmanned aerial vehicle total magnetic field data was calculated both directly between each of the different flight elevations, and indirectly by calculating the values predicted using upward continuation. This case study demonstrates that low flight elevation unmanned aerial vehicle aeromagnetic surveys can reliably collect industry standard total magnetic field measurements at an increased resolution when compared to manned airborne magnetic surveys. The enhanced interpretation potential provided by this approach also aided in delineating structural controls and hydrothermal fluid migration pathways (a pair of adjacent shear zones) related to gold mineralization on site. These structural features were not clearly resolved in the regional manned airborne magnetic data alone, further demonstrating the utility of applying high-resolution unmanned aerial vehicle aeromagnetic surveys to mineral exploration applications. The conclusions and interpretations drawn from the unmanned aerial vehicle aeromagnetic data, coupled with historical data, were applied to make a new gold mineralization discovery on the site, assayed at 15.7 g/t. 相似文献
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多辐射源地空瞬变电磁响应三维数值模拟研究 总被引:1,自引:0,他引:1
地空瞬变电磁法结合地面和航空电磁法的优点,可实现探测深度和工作效率的平衡.当前地空瞬变电磁法采用单一线源激发电磁辐射场,仅能从一个侧面与地质体耦合,难以获得地质体的全息影像.采用多辐射源是解决这一问题的途径.本文采用三维矢量有限元法对两个不同地质体多个辐射源情况下的地空瞬变电磁响应开展了模拟研究,分析了多辐射源在不同辐射方向、不同飞行高度电磁响应的分布特征.研究表明,由多辐射场源作为地空电磁法的发射源,通过分散布设的线源,可以在地下激发与地质体多方位耦合的电磁场,能够获得地下地质体多方位不同高度情况下的耦合信息.同时,多辐射场源能够增强源电磁场的辐射强度,减少单一线源体积效应影响,飞行高度较低时可获得较强的响应幅值,研究结果为多辐射地空瞬变电磁法深部精细探测提供理论依据. 相似文献
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电磁场数值模拟的背景场/异常场算法是三维正演的有效策略之一,优点为采用解析法计算电磁场背景场代替场源项、克服了场源奇异性,缺点为不适用于发射源布置于起伏地表或背景模型复杂的情形.总场算法是直接对电磁场总场开展数值模拟,其难点是有效加载场源、保证近区与过渡区数值解精度.本文以水平电偶源形式分段加载接地长导线源,并以电场总场Helmholtz方程为矢量有限元法控制方程,实现了基于非结构化四面体网格剖分的接地长导线源频率域电磁法三维正演.通过与均匀全空间中水平电偶源产生的电场解析解对比,验证了本文算法的正确性,并分析了四面体外接圆半径与其最短棱边的最大比值和四面体二面角最小值对数值解精度的影响规律.通过与块状高导体地电模型的积分方程法、有限体积法和基于磁矢量势Helmholtz方程的有限元法数值解对比,进一步验证了本文算法正确性,同时说明了非结构化四面体网格能够更加精细地剖分电性异常体,利于获得精确数值解. 相似文献