Modelling of bauxite seam attributes and quantifying in-situ ore volume uncertainty in the presence of geophysical information

IF 0.9 Q4 GEOSCIENCES, MULTIDISCIPLINARY Applied Earth Science-Transactions of the Institutions of Mining and Metallurgy Pub Date : 2020-01-02 DOI:10.1080/25726838.2019.1708666

O. Erten, D. Renard, L. McAndrew

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引用次数: 2

Abstract

ABSTRACT The precise prediction of the footwall variability of a lateritic bauxite seam is of critical importance for the quantification of ferricrete dilution and ore loss that is likely to occur during mining activity. However, the majority of bauxite deposits have economic drillhole intercepts that are too widely spaced to reflect the accurate contact variability, resulting in uncertainties in the in-situ ore volume and the characteristics of the ore being sent to the refinery. In a case study, the seam attributes were modelled using drillhole data and geophysical information through univariate and bivariate geostatistical approaches. The uncertainties in the volumes of ore, dilution and loss were assessed through conditional simulation. The results indicated that the in-situ ore volume was predicted more accurately when the secondary information was incorporated. The realisations suggested a high local variability in the footwall contact, which is the source of dilution and loss considering the selectivity and operating constraints.

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在存在地球物理信息的情况下，铝土矿矿层属性建模和量化现场矿石体积的不确定性

摘要红土型铝土矿矿层下盘变化的精确预测对于量化采矿活动中可能发生的含铁混凝土贫化和矿石损失至关重要。然而，大多数铝土矿矿床的经济钻孔截距太宽，无法反映准确的接触变异性，导致现场矿石量和送往炼油厂的矿石特性存在不确定性。在一个案例研究中，通过单变量和双变量地质统计学方法，使用钻孔数据和地球物理信息对煤层属性进行建模。通过条件模拟评估了矿石体积、稀释度和损失的不确定性。结果表明，加入二次信息后，可以更准确地预测现场矿石量。这些认识表明，下盘接触具有较高的局部变异性，考虑到选择性和操作限制，这是稀释和损失的来源。

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来源期刊

Applied Earth Science-Transactions of the Institutions of Mining and Metallurgy GEOSCIENCES, MULTIDISCIPLINARY-

CiteScore

1.70

自引率

10.00%

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