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1.
During the past two decades electromagnetic methods have been increasingly applied to problems in hydrocarbon exploration. It has been shown that EM methods achieve satisfactory results which can be supplementary to results of the seismic method. We extend the application of the Long-Offset Transient ElectroMagnetic Sounding (lotem ) to exploration problems in the coal mining industry. A survey was conducted north of the Rhine-Ruhr coal district using a grounded dipole source and receivers laid out along several profile lines giving areal coverage. The strong noise from cultural as well as natural electromagnetic sources was reduced using prestack data processing techniques resulting in reliable data with a good signal-to-noise ratio. The interpretation is self-consistent and matches the well logs and the geological information of the area quite well. The high station density permitted the mapping of the top of the Carboniferous formation to a depth of between 800 and 1000 m below surface. 相似文献
2.
Mining,Environmental, Petroleum,and Engineering Industry Applications of Electromagnetic Techniques in Geophysics 总被引:6,自引:1,他引:5
Electromagnetic (EM) techniques are extremely important as a direct detection geophysical tool utilized in the base metal
industry. They were developed in countries such as Canada, whose thin conductive weathering overburden did not hamper the
penetration of EM signals and enabled exploration to depths on the order of 300 m. As a result, EM techniques were used widely
in North America and Scandinavia for many years before they became common in countries with a thick conductive overburden,
such as Australia. The 1980s and 1990s have seen the use of EM methods move from anomaly finding to mapping, as well as the
development of better, faster and more accurate computer modelling algorithms. A review of EM papers, for the years 1998 to
2002, showed that most dealt with EM techniques as mapping tools. Airborne, ground and marine EM techniques are still being
developed, as are data processing and interpretation software. The advent of robust 2-D and 3-D computer modelling and inversion
algorithms has led to the acceptance of EM methods as a mapping tool for many environmental and petroleum industry applications,
a trend which is expected to increase. 相似文献
3.
由于人工源电磁探测效果与收发距离有一定关系,本文首先分析了收发距离为零的中心回线源瞬变电磁法(Transient Electromagnetic Method,TEM)视电阻率定义和算法特点,回溯了从圆形回线到矩形的修正式中心回线装置的发展过程;概述了从中心回线发展到接地导线源短偏移瞬变电磁(Short-Offset TEM,SOTEM)理论上的可行性;列举了将LOTEM(Long-Offset TEM)从数倍于探测深度的观测区推进到近源区后的探测实例.对于频率域人工源电磁法,介绍了起源于MT(Magneto-Telluric)的CSAMT(Controlled Source Audio-frequency Magneto-Telluric)与电磁频率测深法不同发展道路.电磁频率测深将观测区从远区推进到了中区;广域电磁法通过全区视电阻率新定义不仅提高了解释精度,而且将传统CSAMT远场观测模式推进到中区探测模式;最后指出,如能采用新的点微元假设计算方法,可有望分离自有场和辐射场,实现频域电磁近源探测. 相似文献
4.
Oziel Souza de Araújo Eduardo Chemas Hindi Augustinho Rigoti Fábio Henrique Rigoti 《Geophysical Prospecting》2019,67(7):1965-1976
Geophysical investigations using conventional techniques applied to groundwater exploration can often present strong limitations involving high financial costs, complex acquisition logistics and high ambiguity in results. Dispersion of the electric current flow, induced polarization) effects, cultural noises and shallow lateral heterogeneities represent the main problems faced by geoelectric methods in these types of surveys. Moreover, elements such as intrusions and mineralization at different depths may be responsible for signal attenuation as well as high resistivity in unsaturated zones and complex three-dimensional formations or clayey zones cause variations in the electric current. The focused source electromagnetic and differentially normalized method approaches can help to solve some these issues. Aiming at a higher signal-to-noise ratio, the focused source electromagnetic method and approaches of the differentially normalized method, first applied to petroleum exploration, are tested on a groundwater target, in a karst environment sectioned by a diabase dyke. We performed the processing and analysis on real IP resistivity profiling data acquired with two-way dipole-dipole array, guided by magnetic data acquired on the same profile, mapping a diabase dyke. The inversion of focused source electromagnetic method/differentially normalized method was not performed, instead that we converted the induced polarization–resistivity data to a differential signal to qualitatively prove the presence of aquifer. Joint interpretation of focused source electromagnetic method curves and inverted two-dimensional induced polarization–resistivity sections allowed for precise delineation of a conductive zone associated with the karst aquifer, le magnetics allowed for the definition of a neighbour dyke. The techniques have great potential in the aid of groundwater exploration, contributing substantially to the reduction of interpretation ambiguity. Focused source electromagnetic method/differentially normalized method/ approaches show that a simple linear combination of the conventional geoelectric data is able to remove the geological noise and provide the vertical focusing of the electric current. 相似文献
5.
Controlled-Source Electromagnetic Approaches for Hydrocarbon Exploration and Monitoring on Land 总被引:4,自引:1,他引:3
Rita Streich 《Surveys in Geophysics》2016,37(1):47-80
Electromagnetic methods that utilize controlled sources have been applied for natural resource exploration for more than a century. Nevertheless, concomitant with the recent adoption of marine controlled-source electromagnetics (CSEM) by the hydrocarbon industry, the overall usefulness of CSEM methods on land has been questioned within the industry. Truly, there are few published examples of land CSEM surveys carried out completely analogously to the current marine CSEM standard approach of towing a bipole source across an array of stationary receivers, continuously transmitting a low-frequency signal and interpreting the data in the frequency domain. Rather, different sensitivity properties of different exploration targets in diverse geological settings, gradual advances in theoretical understanding, acquisition and computer technology, and different schools in different parts of the world have resulted in a sometimes confusing multitude of land-based controlled-source EM surveying approaches. Here, I aim to review previous and present-day approaches, and provide reasoning for their diversity. I focus on surface-based techniques while excluding airborne EM and well logging and on applications for hydrocarbon exploration. Attempts at the very demanding task of using onshore controlled-source EM for reservoir monitoring are shown, and the possible future potential of EM monitoring is discussed. 相似文献
6.
多通道瞬变电磁法是近年来国际发展的油气资源探测新方法,为了实现这种方法由油气资源领域向矿产资源勘查领域的拓展,中国科学院地质与地球物理研究所牵头对其装备与数据处理解释系统开展技术攻关.针对上述自主研发的多通道瞬变电磁装置,基于其数据采集、数据处理与解释等技术要求,本文对与之匹配开发的多通道瞬变电法磁数据处理解释系统(包含预处理、大地响应正演模拟、二维和三维数据偏移成像等模块)的性能进行分析,结果表明:经过对多通道瞬变电磁法数据处理方法的技术攻关,形成了包含数据处理、正演模拟、二三维偏移成像、解释与可视化等模块的多通道瞬变电磁数据处理解释系统,为多通道大功率电法勘探系统的应用提供了良好的支撑作用. 相似文献
7.
地球电磁感应方法的应用研究在陆地上不断深化的同时,正在向海洋区和大陆边缘扩展,各种电磁方法的观测、资料处理和解释技术正在提高到新的水平,模型和反演技术的研究正在开创一些新的思路,畸变效应及消除问题更加引起人们的注意. 相似文献
8.
The applications of electromagnetics have increased in the past two decades because of an improved understanding of the methods, improved service availability, and the increased focus of exploration in the more complex reservoir characterization issues. For electromagnetic methods surface applications for hydrocarbon Exploration and Production are still a special case, while applications in borehole and airborne research and for engineering and environmental objectives are routine. In the past, electromagnetic techniques, in particular deep transient electromagnetics, made up a completely different discipline in geophysics, although many of the principles are similar to the seismic one. With an understanding of the specific problems related to data processing initially and then acquisition, the inclusion of principles learned from seismics happened almost naturally. Initially, the data processing was very similar to seismic full-waveform processing. The hardware was also changed to include multichannel acquisition systems, and the field procedures became very similar to seismic surveying. As a consequence, the integration and synergism of the interpretation process is becoming almost automatic. The long-offset transient electromagnetic (LOTEM) technique will be summarized from the viewpoint of its similarity to seismics. The complete concept of the method will also be reviewed. An interpretation case history that integrates seismic and LOTEM from a hydrocarbon area in China clearly demonstrates the limitations and benefits of the method. 相似文献
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10.
瞬变电磁法虽然广泛应用于资源勘探和工程勘察中,但仍存在一些亟待解决问题.迫切需要引进一些新的技术与方法,以进一步提高解释精度.由于瞬变电磁资料可以通过数学公式转换成虚拟波;多孔径瞬变电磁物理模拟证明TEM多孔径具有相干性;相邻位置上同一地质体的反射回波具有较好的相关性.所以,对于瞬变电磁资料可以进行多孔径合成成像.本文借助于合成孔径雷达的基本思想,提出一套新的数据处理方法,即采用相关叠加技术,实现多孔径数据合成.在完成瞬变电磁虚拟波提取后,将传统的以剖面为主的处理方式发展成为以测点为中心的多孔径合成,将传统的以单点处理方式发展成为逐点推移多次覆盖的处理方法.采用相关叠加的方法来进行合成孔径,由此大大提高瞬变电磁法的分辨率.从波场的角度拓展和丰富了瞬变电磁场的内涵,使得从实测资料中提取到常规瞬变电磁法提取不到的信息,对地下目标体成像更为有利.通过对所设计模型和实测资料处理,结果表明合成孔径成像效果较好.研究成果为发展瞬变电磁成像技术,提高分辨率提供了一条新途径. 相似文献
11.
Controlled source electromagnetic deep sounding: Theory,results and correlation with natural source results 总被引:2,自引:1,他引:1
David E. Boerner 《Surveys in Geophysics》1992,13(4-5):435-488
Controlled source electromagnetic (EM) methods represent a unique set of geophysical experiments which can be used to determine the properties and state of the deep continental crust. Unlike natural source EM methods, an artificial EM source technique can be designed to optimize resolution and minimize interactions with local structure. The major drawbacks include restricted depth penetration, insufficient data sets and a limited number of modelling algorithms. Information about the electrical conductivity at lower crustal depths can be obtained but at the expense of requiring large moment sources, sophisticated processing techniques and data redundancy. Moreover, EM data are sufficiently complicated that numerical modelling is often necessary for quantitative interpretation. It is therefore essential to record enough information to justify the choice of interpretation algorithms, particularly since controlled source EM forward modelling routines are generally very restrictive and not widely available. As most interpretations are based on layered earth models, observations of all the EM field components can be useful for testing the dimensionality of the data and for justifying interpretations. 相似文献
12.
诸多研究表明我国深部资源潜力巨大,但目前的开发开采深度普遍停留在500 m以浅,开展"攻深探盲"是构建国家资源安全体系的有效途径.应用最先进的科学技术手段,提取深部地质信息,已成为我国当前地球物理科学研究的发展方向.作为地球物理学的重要分支,电磁法是矿产资源探查的主体手段之一.在分析我国现阶段航空、地面及海洋电磁探测技术进展的基础上,本文重点说明了极低频电磁法(简称WEM法),多通道瞬变电磁法(简称MTEM)和电性源短偏移瞬变电磁法(简称SOTEM)等电磁探测新技术.WEM法建立一套包括岩石层、大气层和电离层在内的全空间电磁传播理论,通过新研制的观测系统,获取地下10 km的地电信息;MTEM方法是地下埋深4 km目标体精细勘查的有效手段;SOTEM实现地下1.5 km深度范围内目标体的精细探测.通过多种电磁探测技术组合,可实现地下10 km深度范围内多尺度探测,达到"望远镜+放大镜+显微镜"探测效果.同时,本文指出进一步研发与新方法配套的装备、资料处理技术和大数据人工智能识别等将是我国电磁法未来的发展方向. 相似文献
13.
针对电磁勘探中的混场源输入条件,提出了一种时空阵列混场源电磁勘探方法.假设输入端同时包含天然电磁场源和可控人工场源,输出端进行多站同步观测;基于多输入-多输出系统的分析方法,推导了混场源条件下的时空阵列方程组.提出了系统响应的求解策略,一次性获得所有同步测道对各个场源独立激励时的响应,并分别求取了大地电磁法及可控源电磁法的各种解释参数.在此理论基础上,设计了针对性的施工方案;可控人工场源的选择形式多样,其类型、数量、激励方式及布设位置等不受限制,所有场源的激励可同时进行,无需分步;测区内各测站的布设方式灵活,可根据需要布设单分量测道或多分量测道;同时在测区外布设张量远参考站.利用数值模拟方法,论证了方法的有效性,并与常规方法进行了对比.结果表明,本方法不仅可提高人工场响应的处理精度,还具有一次野外数据采集,可同时获得天然场及人工场电磁响应结果的突出特点,进而提高采集效率,压制噪声影响;本方法集合了天然场源电磁法和人工场源电磁法的优点,为实现不同类型频率域电磁测深方法数据的统一处理提供了思路. 相似文献
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适用于近地表(2000m以内)勘探的频率域电磁法主要有音频大地电磁法(audio-frequency magnetotellurics,AMT),无线电大地电磁法(radio-magnetotellurics,RMT),可控源音频大地电磁法(controlled source audiofrequency magnetotellurics,CSAMT),广域电磁法(Wide Field Electromagnetic Method,WFEM).本文拟从最新的数据采集技术、数据处理技术、正反演算法、实例等四个方面,论述适用于浅部勘探的AMT,RMT,CSAMT和WFEM方法的国内外最新进展,总结目前AMT,RMT,CSAMT和WFEM方法遇到的困难,对潜在的发展方向提出建议.综述表明:(1)张量测量、多站阵列、多站叠加可提高AMT、RMT和CSAMT数据的质量.利用近区数据WFEM法可获得良好的效果.国产与国外仪器在质量方面的差距正在逐步缩小.(2)数学形态滤波技术、Hilbert-Huang变换等可有效分离出有用的数据,局部畸变仍然是亟待解决的难题,需要更为深入的研究.(3)矢量有限元与非结构网格的出现大幅度提高了有限元处理复杂电磁问题模拟的精度与应用范围,成为目前电磁正演的首选工具.完全非线性反演算法仍然局限于1D、2D问题,共轭梯度法和高斯牛顿算法等为解决3D问题的发展趋势.地质约束的引入和多数据联合反演可以减小反演的非唯一性.各向异性的反演为目前反演研究的热点之一.(4)野外数据解释的正确性严重依赖于对地下结构先期的维性判别,在2D特性不明显、3D特性明显时,需要采用3D进行反演解释. 相似文献
16.
海洋可控源电磁法在国外已成为海底天然气水合物调查的有效手段之一.为实现我国海域深水条件下水合物的海洋可控源电磁探测,本文从方法原理出发,采用低功耗嵌入式控制、前端低噪声斩波放大、高精度时间同步和水声通讯等技术,设计并开发了由承压舱、玻璃浮球、采集电路、电场与磁场传感器、姿态测量装置、声学释放器、USBL定位信标、测量臂、水泥块等部件组成的海底可控源电磁接收机,实现了海洋微弱电磁场信号的高精度采集.海底可控源电磁接收机具有高可靠性、低噪声、低功耗和低时漂的特点.利用研制的海底可控源电磁接收机,在琼东南海域进行水合物勘查,采集得到了可靠的人工源电磁场数据.通过数据处理及反演,获得了研究区海底的电阻率模型,结合地震资料,对高阻异常体进行推断解释,其结果为天然气水合物钻探井位布置提供了电性依据. 相似文献
17.
A Review Of Environmental Applications Of Quasi-Stationary Electromagnetic Techniques 总被引:2,自引:0,他引:2
Bülent Tezkan 《Surveys in Geophysics》1999,20(3-4):279-308
Electromagnetic (EM) techniques are the most commonly used geophysical methods in mineral exploration. However, the use of EM measurements for environmental and engineering applications like the detection of contaminant plumes or the exploration of waste sites is relatively new.The reason for the success of the application of EM methods to environmental problems lies in the variation of conductivity caused by different geometry of pore fluids and clay contents in rocks, and by the presence of organic and inorganic contaminants.Many EM methods/instruments used for mapping near surface geology exist and nowadays they play a central role in environmental geophysics. In general, these methods can be classified in two blocks: EM methods using a plane wave source of excitation and EM methods using a controlled source like a magnetic dipole or a loop source. The Very Low Frequency (VLF, VLF-R) and Radiomagnetotelluric (RMT) methods are chosen as representative methods for plane wave techniques, while horizontal loop EM methods operating in low induction numbers (EM31, EM34) and Transient Electromagnetic methods (TEM) are chosen as representatives of magnetic dipole or loop source techniques. Basic principles, advantages and disadvantages of each technique as well as their connection to specific environmental problems will be discussed.Different successful applications of these methods are reported in the literature. However, this review will focus on three major subjects: waste site exploration, detection of contaminated earth layers, and groundwater exploration. Case histories are presented illustrating the suitability of EM methods for solving such problems. 相似文献
18.
可控源音频大地电磁法(CSAMT)的应用是百里店矿山多种地球物理研究的一部分.由于激发极化法(IP)的穿透率和分辨率是与几何因素密切相关,对于较深部的地质特征,靠IP法不容易分辨出来.CSAMT较好地解决了这个问题,首先,根据区域地质背景、成矿条件和矿区岩石物性特征,开展了面积性的激电测量,进而开展了CSAMT方法的探测研究.通过对CSAMT原始数据的分析解释,发现测区深部存在两条低电阻率梯级带,其中一条为陡倾斜;另一条为缓倾斜,两者在地下800m左右深度处相互斜交.经地质推断解释认为:这是测区内金矿的主要控矿、导矿及容矿构造. 相似文献
19.
频率域吊舱式航空电磁系统在国内尚处于研究和试生产阶段,由于缺少有效的数据处理手段,限制了该项技术的进一步应用和发展.本文通过对马奎特方法原理介绍,成功地将其运用到频率域航空电磁资料的反演计算中,并对几个关键技术——雅可比矩阵计算、初始模型赋值、形态模型与物性模型反演效果等进行分析,提出了切实可行的算法,并在计算机上加以实现.最后,通过理论模型和实测数据测试验证了算法的有效性和正确性,填补了国内该应用领域的技术空白,取得了较好的应用效果. 相似文献
20.
Kerry Key 《Surveys in Geophysics》2012,33(1):135-167
The past decade has been a period of rapid growth for marine electromagnetic (EM) methods, predominantly due to the industrial
adoption and promotion of EM as a valuable tool for characterizing offshore hydrocarbon reservoirs. This growth is illustrated
by a database of marine EM publications spanning from the early developments in the 1960’s to the present day; while over
300 peer-reviewed papers on marine EM have been published to date, more than half of these papers have been published within
the last decade. This review provides an overview of these recent developments, covering industrial and academic use of marine
EM for resource exploration and tectonic investigations, ranging from acquisition technology and modeling approaches to new
physical and geological insights learned from recent data sets. 相似文献