Multiple Destination Influence on Production Scheduling in Multi-element Mines

International journal of engineering. Transactions A: basics Pub Date : 2017-11-30 DOI:10.5829/ije.2018.31.01a.23

M. Jamshidi, M. Osanloo

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引用次数: 2

Abstract

In multi-element deposits, different blocks are blended together to create a product with a predetermined quality. Generally, blending aims to obtain a special quality and quantity based on determining the processing plant or customer needs. However, blending causes different products based on the deposit properties. Thus, a block is blended with others to create one of many possible products. The present study aims to develop a mixed integer programming model for the production scheduling of iron ore mines. The model can consider different destinations for mine blocks. Each destination has its own specifications for the main element (Fe) and other existing elements such as sulfur and phosphorous. For this purpose, ten different scenarios were evaluated to investigate the effect of multiple products on production scheduling and Net Present Value (NPV) of the related project. Among the four selected scenarios, the mine was scheduled based on single product while multiple products were considered in scheduling in other scenarios. Based on the results, the maximum NPV in scenarios with multiple products is approximately 15% higher than that of the single product scenarios.

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多目标对多要素矿山生产调度的影响

在多元素矿床中，不同的块混合在一起，形成具有预定质量的产品。一般来说，混合的目的是在确定加工厂或客户需要的基础上获得特定的质量和数量。然而，根据沉积物的性质，混合会产生不同的产品。因此，一个块与其他块混合在一起，创造出许多可能的产品之一。本研究旨在建立铁矿生产调度的混合整数规划模型。该模型可以考虑矿区的不同目的地。每个目的地对主要元素(铁)和其他现有元素(如硫和磷)都有自己的规格。为此，我们评估了10种不同的情景，以研究多种产品对相关项目的生产计划和净现值(NPV)的影响。在选取的4个场景中，矿山以单一产品为调度对象，其他场景以多产品为调度对象。结果表明，多产品场景下的最大NPV比单产品场景下的最大NPV高约15%。

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

International journal of engineering. Transactions A: basics

CiteScore

3.10

自引率

0.00%

发文量