Partition moment of inertia: Techno-economic partition curve analysis with applications to coal separations

Q2 Materials Science

Minerals & Metallurgical Processing Pub Date : 2016-05-01 DOI:10.19150/MMP.6623

A. Noble, G. Luttrell

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引用次数: 3

Abstract

In coal and mineral processing, several numeric parameters are used to quantify the separation performance of unit operations. For density-based separations, the partition curve is used as the starting point for many stages of diagnostic analyses. The curve is often quantified by its midpoint slope sharpness, and this single value is subsequently used for technical evaluation, benchmarking, and comparison. While this analytical approach does depict misplacement by relative density class, it inherently prioritizes middling separation and does not consider process economics or the micro-price value of individual classes. An alternative parameter, the organic efficiency, does indirectly consider process economics, but it does not reveal information on the root cause of lost revenue or misplacement. In this paper, a new analytical approach, the partition moment of inertia, is introduced. This parameter reconciles the technical misplacement data derived from the partition curve with the economic data derived from micro-pricing. The result is a new analytical procedure that promises better use of performance data.

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配分惯性矩:技术经济配分曲线分析及其在选煤中的应用

在煤和矿物加工中，使用几个数值参数来量化单元操作的分离性能。对于基于密度的分离，分割曲线被用作诊断分析许多阶段的起点。曲线通常通过其中点斜率锐度来量化，这个单一值随后用于技术评估、基准测试和比较。虽然这种分析方法确实描述了相对密度类别的错位，但它本质上优先考虑了中间分离，并且没有考虑过程经济学或单个类别的微观价格价值。另一个参数，即有机效率，确实间接地考虑了过程经济学，但它并没有揭示收入损失或错位的根本原因。本文介绍了一种新的解析方法——惯性矩的划分。该参数将从划分曲线中得到的技术错位数据与从微观定价中得到的经济数据相协调。其结果是一种新的分析程序，有望更好地利用性能数据。

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

Minerals & Metallurgical Processing 工程技术-矿业与矿物加工

CiteScore

0.84

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： For over twenty-five years, M&MP has been your source for the newest thinking in the processing of minerals and metals. We cover the latest developments in a wide range of applicable disciplines, from metallurgy to computer science to environmental engineering. Our authors, experts from industry, academia and the government, present state-of-the-art research from around the globe.