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The application of pseudo-random signal electrical prospecting instrument to an old mine in Hebei Province |
Han-Bing WANG1, Biao FENG1, Peng ZHOU2, Zhan-Guo LU1, Shi-Jun JIA2, Long-Qin GAO1 |
1. Beijing Orangelamp Geophysical Exploration Co., Ltd., Beijing 102202, China 2. Third Geological Prospecting Institute, China Metallurgical Geological General Bureau, Taiyuan 030002, China |
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Abstract Induced polarization method is one of the most important geophysical methods for mineral exploration. There is strong electromagnetic interference in old mines, and traditional IP instruments are incapable of obtaining stable and reliable data. Pseudo-random signal electrical prospecting instrument is based on "system identification". It is a new electrical prospecting instrument with strong anti-interference capability and could be applied in old mines. Based on a case study of an old mine in Hebei Province, the superiority of pseudo-random signal electrical apparatus is further expounded.
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Received: 16 October 2018
Published: 31 May 2019
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Observing system of active source electric and electromagnetic prospecting and it’s equivalent circuit
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Positions of IP sounding points
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Results of gradient array on test profile
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Sketch map of gradient sounding array
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Waveform comparison of time series before and after pretreatment
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The apparent resistivity and apparent percent frequency effect pseudosection map of L0,L4,L8
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Composite profile of L0 a—section map of resistivity inversion results; b—section map of percent frequency effect; c—previous geochemical curves; d—geological section
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Section map of L0 chargeability inversion results by traditional IP Instruments
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Section map of L4(a),L8(b) inversion results
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[1] |
罗延钟, 陆占国, 孙国良 , 等. 新一代电法勘查仪器——伪随机信号电法仪[J]. 地球物理学进展, 2015,30(1):0411-0415.
|
[1] |
Luo Y Z, Lu Z G, Sun G L , et al. New generation of instruments for electrical and electromagnetic prospecting: instruments using pseudo random signal[J]. Progress in Geophasics, 2015,30(1):0411-0415.
|
[2] |
罗延钟, 陆占国, 孙国良 , 等. 伪随机信号电法仪器的“第二方案”算法[J]. 地球物理学进展, 2016,31(6):2604-2608.
|
[2] |
Luo Y Z, Lu Z G, Sun G L , et al. Algorithms of second solution for instruments of electrical and electromagnetic prospecting using pseudo random signal[J]. Progress in Geophasics, 2016,31(6):2604-2608.
|
[3] |
Duncan P M, Hwang A, Edwards R N , et al. The development and applications of a wadeband electromagnetic sounding system using pseudo noise source[J]. Geophysics, 1980,45(8):1276-1296.
|
[4] |
Duncan A, Williams P, Frasct G , et al. SMARTem: a new electrical method receiver system[J]. Preview, 1997,67:26-29.
|
[5] |
Zepernick H J, Filger A . Pseudo Random Signal Processing: Theory and Application[M]. ISBN 0-470-86657-8, John Wiley & Sons, Ltd, 2005.
|
[6] |
Hobbs B, Ziolkowski A, Wright D. Multi transient electromagnetics (MTEM) controlled source equipment for subsurface resistivity investgation[C]//18th IAGA WG1.2 Workshop on Electromagnetic Induction in the Earth, El Vendrell, Spain, 2006 -9-17~23, September:17-23,2006.
|
[7] |
淳少恒, 陈儒军, 耿明会 . 伪随机m序列及其在电法勘探中的应用进展[J]. 地球物理学进展, 2014,29(1):439-446.
|
[7] |
Chun S H, Chen R J, Geng M H . Review of the pseudo-random m sequence and its application in electrical prospecting of exploration geophysics[J]. Progress in Geophysics, 2014,29(1):0439-0446.
|
[8] |
杨洋, 邓锋华, 李帝铨 . 基于伪随机信号的大深度激发极化法在油气勘探中的应用[J]. 物探与化探, 2013,37(3):438-442.
|
[8] |
Yang Y, Deng F H, Li D Q . The application of great depth induced polarization method based on pseudo-random signal to oil and gas exploration[J]. Geophysical & Geochemical Exploration, 2013,37(3):438-442.
|
[9] |
李梅, 魏文博, 邓明 . 电法勘探中的伪随机序列[J]. 仪器仪表学报, 2008,29(4):233-235.
|
[9] |
Li M, Wei W B, Deng M . Pseudo-random Sequence in Electrical Prospecting[J]. Chinese Journal of Scientific Instrument, 2008,29(4):233-235.
|
[10] |
李梅 . 基于相关辨识技术的时间域谱激电仿真研究[D].北京:中国地质大学(北京). 2010.
|
[10] |
Li M . Research of Time-Domain Spectrum IP Based on Correlation Identification Technology. Doctoral dissertation. Beijing:China University of Geosciences( Beijing), 2010.
|
[11] |
刘义国, 董浩斌, 刘雪军 , 等. m序列在电法勘探上的应用初探[J]. 工程地球物理学报, 2010,7(2):159-163.
|
[11] |
Liu Y G, Dong H B, Liu X J , et al. Preliminary Study of Electrical Prospecting Based on m Sequence[J]. Chinese Journal of Engineering Geophysics, 2010,7(2):159-163.
|
[12] |
罗维斌 . 伪随机海洋可控源多道电磁测深法研究[D].长沙:中南大学. 2007.
|
[12] |
Luo W B . Study on Pseudorandom Marine Controlled-Source Electromagnetic sounding with multi-offsets[D]. Changsha: Central South University, 2007.
|
[13] |
罗维斌, 李庆春, 汤井田 . 编码电磁测深[J]. 地球物理学报, 2012,55(1) : 341-349.
|
[13] |
Luo W B, Li Q C, Tang J T . Coded source electromagnetic sounding method[J]. Chinese J. Geophys, 2012,55(1):341-349.
|
[14] |
罗先中, 赵壁如, 胡文宝 . KGR-1抗干扰电法仪器研制成果 [C]//中国地球物理学会第二十七届年会,长沙, 2011.
|
[14] |
Luo X Z, Zhao B R, Hu W B . Developing result of KGR-1 anti-jamming electro-detecting instrument [C]// 27th Annual Meeting of China Geophysical Society, Changsha, 2011.
|
[15] |
罗先中, 李达为, 彭芳苹 , 等. 抗干扰编码电法仪的实现及应用[J]. 地球物理学进展, 2014,29(2):0944-0951.
|
[15] |
Luo X Z, Li D W, Peng F P , et al. Implementation and applications of an coded electrical instrument with anti-interference ability[J]. Progress in Geophysics, 2014,29(2):0944-0951.
|
[16] |
汤井田, 李飞, 罗维斌 . 基于逆重复m 序列的精细探测电法发送机设计[J]. 地球物理学进展, 2006,22(3):994-1000.
|
[16] |
Tang J T, Li F, Luo W B . Electrical fine-exploration transmitter design based on invert-repeated m-sequence[J]. Progress in Geophysics, 2006,22(3):994-1000.
|
[17] |
汤井田, 罗维斌 . 基于相关辨识的逆重复m序列伪随机电磁法[J]. 地球物理学报, 2008,51(4):1226-1233.
|
[17] |
Tang J T, Luo W B . Pseudo-random electromagnetic exploration based on Invert-Repeated m-Sequence correlation identification[J]. Chinese J. Geophysics, 2008,51(4):1226-1233.
|
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