Establishing the ore body model, the loss impoverishment dynamic model and the ore matching optimization model.
建立了矿体模型、损失贫化动态模型和配矿优化模型。
Element geochemistry model of the primary mineralization halo is simulated by regression analysis and vertical zoning of the ore body primary halo by variable index method.
运用回归分析,模拟出原生金矿化元素地球化学模型。利用变异性指数法确定了矿体原生晕垂向分带。
By the calculation and simulation of Variogram, to build the theoretical model of Variogram of the ore-body.
通过变异函数的计算和模拟,建立了矿床的理论变异函数模型。
All the methods are based on economic block model of ore body built according to geological statistics theory.
这些计算机优化方法都是在应用地质统计学方法建立的矿床块段模型基础上实现的。
The establishment of the computer model for the ore body of open pit mine is the basis for the optimization of deposit mining boundary and the mining production scheduling.
露天矿矿体计算机模型的建立是进行矿床开采境界优化及制定矿山生产计划的基础。
After analyzing the movement law of ore drawing body, the basic parameters of sublevel mine in a gold mine are calculated by the experiment result of single model and surface model in a lab.
介绍了无底柱分段崩落法放矿基本原理,利用室内单体模型和平面模型的放矿试验,分析了放矿体的流动规律,并据此确定了某金矿无底柱分段崩落法的基本结构参数。
In the process of ore body modeling, model editing is the most crucial step.
在矿体建模过程中,模型编辑是建模的关键环节。
The metallogenetic model is that the ore origin bed was formed by syngenetic sedimentation (diagenesis) and the ore body by the later reformation (superimposition).
同生沉积(成岩)作用形成矿源层,后期改造(叠加)形成矿体。
The editor has been able to map the ore body profile contours in 3D interactive visualization environment, and rapidly builds the contours of the ore body wire-frame model.
该编辑器已经能够在三维可视化环境中交互绘制矿体剖面轮廓线,并通过轮廓线快速地构造矿体的线框模型。
Finally, the spherical model for ordinary kriging estimation is obtained and 3d grade model of ore-body is established.
获得了矿体品位的普通克里金估值球状模型,并建立了三维品位模型。
Finally, shows the 3d visual model of a real ore body constructed by the modeling system.
最后利用该系统展示了一个实际矿体的三维可视化模型。
The results indicated that the established model can accurately reflect the spatial and grade distribution of ore-body. It gives a mathematics model for further exploitation of mineral resources.
结果表明,建立的模型准确反映矿体的空间形态与品位分布,为后期进一步资源开发提供了数学模型。
The reserves calculation and grade analysis of the ore body can be carried out by the model. It provides scientific bases for reasonably developing and utilizing resources of mines.
并可对矿体进行储量计算和品位报告,为矿山合理开发利用资源提供科学依据。
The application proves the method raised in this paper could build up the 3d ore body surface model which can meet the reality according to the exploration data in mining area.
应用研究表明:运用本文方法,根据矿区勘探数据,能够建立起符合实际的三维矿体表面模型。
The ore-body block model is not only widely used in ore grade and reserve calculation, but used in the optimization of the final mining boundary and mining plan in the open pit.
矿体块状模型广泛应用于品位、储量计算,也可用于露天矿最终开采境界优化和开采计划优化。
The ore-body block model is not only widely used in ore grade and reserve calculation, but used in the optimization of the final mining boundary and mining plan in the open pit.
矿体块状模型广泛应用于品位、储量计算,也可用于露天矿最终开采境界优化和开采计划优化。
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