分形方差-距离模型在伊朗中部Mehdiabad炉甘石矿地球化学异常识别中的评价

IF 1.1 Q3 MINING & MINERAL PROCESSING
N. Sadrmohammadi, R. Mehrnia, K. Rezaei, S. Kadioglu, M. Honarvar
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引用次数: 0

摘要

为了认识炉甘石铅锌矿元素线性与非线性分布的差异,提出了一种幂律关系模型——变分形模型,并将其应用于找矿。从假设的角度出发,由于矿上和矿下元素的地球化学分带性是判断隐伏/下伏成矿潜力的重要标准,因此可以通过圈定元素分形面作为炉石矿元素地球化学分带性的几何证据来验证这一假设。线性回归结果与泊松分布系数的比较表明,各元素的相对分布倾向于非线性分布。因此,从方差-距离关系(幂律)导出的对数方程在这里用于描述元素的分形表面作为与适当的自组织分布相关的几何特征。在本研究中,地球化学分带的变分形表达具有微量元素向非线性分布的趋势。结果表明:炉甘石的分数形面多为自组织型,位于2 < FD < 3处为“实分形面”,其中3个元素出现在拟分形种群中,称为“近布朗尼”。炉山石的分形面可以扩展到整个异常区域,也可以作为最终模型的有限类型分布,这是一种基于分形的元素地球化学分带模式,用于深部成矿潜力评价,并优先选择了6个含10个元素的真实分形面靶区和3个在布朗尼附近的分形面靶区,并通过矿物学证据进行了验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Fractal Variance-Distance Model in Identifying Geochemical Anomalies of Calamine Mehdiabad Mining Complex, Central Iran
In this paper, a power-law relation modeling called the vario-fractal model is introduced in order to understand the discrepancies between the linear and non-linear distribution of the elements and its application for mineral exploration in the calamine Zn-Pb ore-deposit. From a hypothetical viewpoint, since geochemical zonation of the supra- and sub-ore elements is a crucial evaluation criterion for concealed/underlying mineralization potentials, this hypothesis can be tested by delineating the fractal surfaces of elements as the geometric evidence of primary geochemical zonation of elements in the calamine mine. A comparison of the linear regression results with the Poisson distribution coefficients indicate the relative tendency of the elements towards a non-linear distribution. Therefore, a logarithmic equation derived from the variance-distance relationship (power-law) is used here for the delineation of fractal surfaces of elements as the geometric features related to proper self-organized distributions. In this research work, the vario-fractal expression of geochemical zonation has trace-element tendencies to the non-linear distribution. The results obtained show that the calamine’s fractional surfaces are mostly of self-organized types, situated at 2 < FD < 3 as "real fractal surfaces", although 3 of the elements appear in the quasi-fractal populations called "near Brownies” here. Moreover, the calamine’s fractal surfaces can be extended throughout the anomalous regions or may be distributed as limited types of the finalized model, which is a fractal-based pattern of geochemical zonation of the elements for evaluation of the hypogenic mineralization potential and has been prioritized to 6 target-areas containing 10 elements with real fractal surfaces and 3 more at near Brownies and then validated by the mineralogical evidence.
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来源期刊
Journal of Mining and Environment
Journal of Mining and Environment MINING & MINERAL PROCESSING-
CiteScore
1.90
自引率
25.00%
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