An Optimum Selection of Simulated Geological Models by Multi-Point Geostatistics and Multi-Criteria Decision-Making Approaches; a Case Study in Sungun Porphyry-Cu deposit, Iran

IF 1.1 Q3 MINING & MINERAL PROCESSING

Journal of Mining and Environment Pub Date : 2020-04-01 DOI:10.22044/JME.2020.8710.1757

S. T. Hosseini, O. Asghari, S. Torabi, M. Abedi

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引用次数: 5

Abstract

An accurate modeling of sophisticated geological units has a substantial impact on designing a mine extraction plan. Geostatistical simulation approaches, via defining a variogram model or incorporating a training image (TI), can tackle the construction of various geological units when a sparse pattern of drilling is available. The variogram-based techniques (derived from two-point geostatistics) usually suffer from reproducing complex and non-linear geological units as dyke. However, multipoint geostatistics (MPS) resolves this issue by incorporating a training image from a prior geological information. This work deals with the multi-step Single Normal Equation Simulation (SNESIM) algorithm of dyke structures in the Sungun Porphyry-Cu system, NW Iran. In order to perform a multi-step SNESIM algorithm, the multi-criteria decision-making and MPS approaches are used in a combined form. To this end, two TIs are considered, one for simulating dyke structures in the shallow depth, and two for simulating dyke structures in a deeper depth. In the first step, a TI is produced using geological map, which has been mined out during the previous exploration operations. After producing TI, the 35 realizations are simulated for the shallow depth of deposit in the area under study. To select the best realization (as a TI for the next step) of the simulation results, several statistical criteria are used and the results obtained are compared. To this end, a hybrid multi-criteria decision-making is designed on the basis of a group of statistical criteria. In the next step, the dyke structures in the deeper depth are also simulated by the new TI.

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通过多点地质统计学和多准则决策方法优化选择模拟地质模型；伊朗Sungun斑岩型铜矿实例研究

复杂地质单元的准确建模对矿山开采方案的设计具有重要的影响。地质统计模拟方法，通过定义变异函数模型或结合训练图像(TI)，可以在钻井稀疏模式可用时处理各种地质单元的构造。基于变差的技术(源自两点地质统计)通常难以再现复杂的非线性地质单元，如堤防。然而，多点地质统计(MPS)通过结合来自先前地质信息的训练图像来解决这个问题。本文研究了伊朗NW Sungun斑岩- cu体系岩脉结构的多步单标准方程模拟(SNESIM)算法。为了实现多步SNESIM算法，将多准则决策方法与MPS方法相结合。为此，考虑了两个ti，一个用于模拟浅深度的堤防结构，两个用于模拟较深深度的堤防结构。在第一步中，利用在以前的勘探作业中开采出来的地质图生成TI。在生产TI后，对研究区浅层深部的35种实现进行了模拟。为了选择仿真结果的最佳实现(作为下一步的TI)，使用了几种统计准则并对得到的结果进行了比较。为此，在一组统计准则的基础上设计了混合多准则决策。在接下来的步骤中，新的TI也模拟了更深深度的堤防结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Mining and Environment MINING & MINERAL PROCESSING-

CiteScore

1.90

自引率

25.00%

发文量