用多种地球物理方法描述南非布什维尔德复合体西部露天矿的裂缝特征

IF 1.8 3区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS
Moyagabo K. Rapetsoa, Sikelela Gomo, Musa S. D. Manzi, Ian James, Jureya Dildar, Mpofana Sihoyiya, Ndamulelo Mutshafa, Raymond J. Durrheim
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引用次数: 0

摘要

在南非布什维尔德复合区,露天矿面临着因地质结构(断裂、断层和堤坝)导致岩体分块而造成的岩坡稳定性挑战。在 Tharisa 矿 0.2 平方公里的区域内进行了地球物理勘测(地震学、磁学和电学方法),目的是划定可能成为水流入矿坑潜在通道的裂缝。对数据集采用了特殊处理技术,以获得高质量的地震、磁性和电阻率模型。P 波速度模型显示地震剖面中心有明显的低速度,表明存在与断层或断裂有关的薄弱区。地震反射法用于对更深的不连续性和矿化接触点进行成像。整个剖面都观察到了近地表反射,与铬铁矿和主岩之间的接触相关。地磁勘测用于划分堤坝和断裂。对磁性数据采用了去趋势和去梯度技术,以校正区域和时间变化。低磁区域表明地下存在断裂系统,而高磁区域则与横穿矿坑的辉绿岩堤相关。电阻率层析成像显示了线性低电阻率对比区,在估计深度 4-10 米处区分了断裂和未扰动的坚硬岩石。磁学、P 波速度模型、电阻率剖面图和地震数据之间的相关性在叠加不同数据集时非常明显,这表明低磁性区域风化程度高,容易发生断裂。地球物理数据的整合令人鼓舞,因为它能够在复杂的采矿环境中对基岩深度、主岩和堤坝内的裂缝进行成像。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multi-geophysical methods for characterizing fractures in an open pit mine, western Bushveld Complex, South Africa

Multi-geophysical methods for characterizing fractures in an open pit mine, western Bushveld Complex, South Africa

In the Bushveld Complex, South Africa, open pit mines are faced with a challenge of rock slope stability due to geological structures (fractures, faults and dykes) that compartmentalize the rock mass. Geophysical surveys (seismics, magnetics and electrical methods) were conducted in a 0.2 km2 area at Tharisa mine, with the goal to delineate fractures that may be potential conduits for water migration into the pit. Special processing techniques were applied to the dataset to obtain good quality seismic, magnetic and resistivity models. The P-wave velocity models show distinct low velocities in the centre of the seismic profile, indicating the presence of weak zones associated with faulting or fracturing. Seismic reflection method was used to image the deeper discontinuities and mineralization contacts. Near surface reflections are observed throughout the profiles and are correlated with the contact between the chromitite and host rock. Ground magnetic surveys were conducted to delineate dykes and fractures. De-trending and de-culturing techniques were applied on the magnetic data for correcting regional and temporal variations. The low magnetic regions indicate the presence of fracture systems in the subsurface, whereas the high magnetic region is correlated with the dolerite dyke that crosscuts the pit. The electrical resistivity tomography exhibits linear low resistivity contrast zones that differentiate between the fractured and undisturbed hard rock at an estimated depth of 4–10 m. Resistivity shows discontinuities that suggests the presence of fracturing and dyke-host rock contacts. Correlation among magnetics, P-wave velocity models, resistivity section and seismic data is evident when overlaying the different datasets, implying that the low magnetic regions are highly weathered and prone to fracturing. The integration of geophysical data is encouraging, because it was able to image the depth to the bedrock, fractures within the host rock and dyke in a complex mining environment.

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来源期刊
Geophysical Prospecting
Geophysical Prospecting 地学-地球化学与地球物理
CiteScore
4.90
自引率
11.50%
发文量
118
审稿时长
4.5 months
期刊介绍: Geophysical Prospecting publishes the best in primary research on the science of geophysics as it applies to the exploration, evaluation and extraction of earth resources. Drawing heavily on contributions from researchers in the oil and mineral exploration industries, the journal has a very practical slant. Although the journal provides a valuable forum for communication among workers in these fields, it is also ideally suited to researchers in academic geophysics.
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