The inversion of data from complex 3-D resistivity and I.P. surveys

M. Loke, K. Frankcombe, D. Rucker
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引用次数: 14

Abstract

The search and recovery for base and precious metals in recent years has led to surveys in more challenging areas over complex deposits and in extreme terrains. Such deposits frequently have accessory minerals that can be detected by induced polarization (I.P.) surveys. Due to their complex shapes and host terrains, 3-D surveys and inversion models are necessary to accurately resolve them. However, in some cases, the survey lines are not arranged rectilinearly. To accommodate an arbitrary arrangement of the electrodes, a model discretisation that is independent of the electrode positions is used. The rugged terrain can be accurately modelled by the use of the finite-element method where the surface of the mesh matches the topography. Innovative arrays such as the offset pole-dipole array have been used to rapidly survey large areas at a lower cost compared to traditional dipole- dipole arrays. Such arrays frequently have large geometric factors that make it difficult to accurately calculate the I.P. anomalies with the conventional linear perturbation approach that uses the difference of two resistivity calculations. The complex resistivity method, where the I.P. component becomes the imaginary component of the resistivity model, avoids this problem as it effectively decouples the resistivity and I.P. calculations. Furthermore, time-lapse 3-D surveys using surface and borehole electrodes have been conducted to monitor the flow of sodium cyanide solution directly injected in steep-sided ore rock piles for secondary recovery of gold. A 4-D resistivity inversion method is used to map the flow of the solution during the injection process.
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复杂三维电阻率和I.P.数据反演
近年来,对贱金属和贵金属的寻找和回收,导致了在复杂矿床和极端地形上更具挑战性的地区进行调查。这类矿床通常有辅助矿物,可以通过诱导极化(I.P.)测量检测到。由于其复杂的形状和地形,需要三维测量和反演模型来准确解析。然而,在某些情况下,测量线并不是直线排列的。为了适应电极的任意排列,使用了与电极位置无关的模型离散化。采用网格表面与地形相匹配的有限元方法可以准确地模拟崎岖地形。与传统的偶极-偶极阵列相比,偏置极-偶极阵列等创新阵列已被用于以更低的成本快速测量大面积。这种阵列通常具有较大的几何因子,使得使用传统的线性摄动方法(使用两次电阻率计算的差异)难以准确计算I.P.异常。复电阻率法,其中I.P.分量成为电阻率模型的虚分量,避免了这个问题,因为它有效地解耦了电阻率和I.P.计算。此外,利用地表电极和钻孔电极进行了延时三维测量,监测了陡边矿岩桩直接注入氰化钠溶液二次回收金的流动情况。利用4维电阻率反演方法绘制了注入过程中溶液的流动情况。
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