Key Technologies for Surface-Borehole Transient Electromagnetic Systems and Applications

IF 2.2 4区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Minerals Pub Date : 2024-07-31 DOI:10.3390/min14080793
Qingming Guo, Yurong Mao, Liangjun Yan, Wenhui Chen, Jupeng Yang, Xingbing Xie, Lei Zhou, Haojin Li
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Abstract

The nonferrous metal mines in China are rapidly depleting due to years of mining, and it has become difficult to identify new mineral resources in the periphery of the old mining area. In order to deal with this situation, advanced technologies and equipment must be deployed. The borehole transient electromagnetic method (TEM) has become a key technology due to its deep investigative capabilities within conductive geological structures. In the present study, in order to meet the exploration needs at depths of less than 3000 m, surface-borehole TEM exploration was used to analyze the characteristics of electromagnetic signals generated by a long wire source and a large loop source, providing essential data for the development of key technologies, such as sensor parameter design and signal gain optimization of the TEM system in the borehole. This study discussed in detail two key technical problems as follows: firstly, the efficient synchronization mechanism between the ground transmitter system and the borehole electromagnetic signal acquisition system ensured the accuracy and timeliness of data acquisition; and secondly, the realization of mass storage technology, which effectively solved the problem of mass storage and real-time transmission of data in a deep borehole environment. The effectiveness of the surface-borehole TEM systems with a long wire source and a large loop source was verified by tests in real mines. The surface-borehole electromagnetic signal acquisition system developed in this study effectively collected electromagnetic signals in the borehole, and the results accurately reflected the stratigraphic information of mineral resources in the study area. This study can pave a new technical path for the exploration of deep and peripheral areas of non-ferrous metal mines and provide valuable experience and insights for mineral resource exploration in similarly complex geological environments.
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地表-钻孔瞬态电磁系统和应用的关键技术
由于多年开采,中国的有色金属矿山正在迅速枯竭,在老矿区外围寻找新的矿产资源已变得十分困难。针对这种情况,必须采用先进的技术和设备。钻孔瞬变电磁法(TEM)因其在导电地质结构中的深部调查能力而成为一项关键技术。在本研究中,为了满足深度小于 3000 米的勘探需求,利用地表钻孔 TEM 勘探分析了长线源和大环源产生的电磁信号特征,为钻孔 TEM 系统的传感器参数设计和信号增益优化等关键技术的开发提供了重要数据。该研究详细讨论了以下两个关键技术问题:一是地面发射系统与井眼电磁信号采集系统之间的高效同步机制,确保了数据采集的准确性和及时性;二是海量存储技术的实现,有效解决了深井环境下数据的海量存储和实时传输问题。通过在实际矿井中的测试,验证了采用长线源和大环路源的地表-井眼 TEM 系统的有效性。本研究开发的地表-钻孔电磁信号采集系统有效采集了钻孔中的电磁信号,采集结果准确反映了研究区域的矿产资源地层信息。该研究可为有色金属矿山深部和外围地区的勘探铺平一条新的技术道路,并为类似复杂地质环境下的矿产资源勘探提供宝贵的经验和启示。
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来源期刊
Minerals
Minerals MINERALOGY-MINING & MINERAL PROCESSING
CiteScore
4.10
自引率
20.00%
发文量
1351
审稿时长
19.04 days
期刊介绍: Minerals (ISSN 2075-163X) is an international open access journal that covers the broad field of mineralogy, economic mineral resources, mineral exploration, innovative mining techniques and advances in mineral processing. It publishes reviews, regular research papers and short notes. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.
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