Regulatory Control of Mass Flowrate in an Ore Feeding System with Time-Delayed Gain-Variant Dynamics

Sidney Viana, Cairo Lúcio Nascimento Jr.
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Abstract

Brazil is the world leading producer and exporter of iron ore, mainly due to operations of VALE, a global mining company with several operations in the country, delivering iron, copper, manganese, and nickel ores. Those operations are located mainly in the Northern state of Pará, and in the Southeastern state of Minas Gerais. From 2014 to 2019, the company’s average yearly production of iron ore was about 342 million t/year. Most of such production was exported overseas, mainly to Asian and European countries.Mineral processing plants implement several stages of ore beneficiation, necessary to convert raw ore from the mines into ore products. Those plants comprise several processing facilities as crushing, screening, grinding, flotation, and others, which are operated by means of a plantwide digital control system, either SCADA- or DCS-based, using many process control loops.The most important process variable in a mineral processing plant is the ore mass flowrate, measured in t/h. The transportation of ore between mineral facilities is usually done by belt conveyors, and the ore flowrate is measured by a conveyor weigher (also known as dynamic weigher or belt scale), which is a heavy instrument assembled directly in the conveyor structure [18]. The conveyor weigher has two primary sensors: piezoelectric loading cells to sense the unit weight of material on the belt, in t/m; and an incremental encoder to sense the belt moving speed, in m/s. By combining the unity load and the belt speed measurements, the weigher computes the material flowrate, in t/h, with a typical precision of ±0.5% of its full measurement range. The ore flowrate in a conveyor is not defined by the belt speed, but by the speed of the feeder that discharges the ore on the conveyor belt. Therefore, by changing the feeder (actuator) speed it is possible to control the ore flowrate using its measurements provided by the conveyor weigher (sensor).This work describes the modeling and control of ore flowrate for the ore feeding system “RF-A” of the Fábrica Iron Ore Processing Plant, in the city of Ouro Preto, Minas Gerais state, Brazil, operated by VALE. The next section introduces the industrial process and the control problem. 
时滞变增益动态给矿系统质量流量的调节控制
巴西是世界领先的铁矿石生产国和出口国,这主要得益于淡水河谷(VALE)的运营。淡水河谷是一家全球性矿业公司,在巴西拥有多家业务,提供铁、铜、锰和镍矿石。这些业务主要位于北部的帕尔州和东南部的米纳斯吉拉斯州。2014 - 2019年,公司铁矿石平均年产量约3.42亿t/年。这些产品大部分出口到海外,主要是亚洲和欧洲国家。矿物加工厂实行几个阶段的矿石选矿,必须将原矿从矿山转化为矿石产品。这些工厂包括破碎、筛选、研磨、浮选等几个处理设施,这些设施由工厂范围内的数字控制系统(SCADA或基于dcs的)操作,使用许多过程控制回路。选矿厂中最重要的过程变量是矿石质量流量,以t/h为单位。矿石在矿产设施之间的运输通常由带式输送机完成,矿石流量由输送机秤(又称动态秤或带式秤)测量,该秤是直接装配在输送机结构中的重型仪器[18]。输送带称重机有两个主要传感器:压电加载单元,用于感应输送带上物料的单位重量,单位为t/m;还有一个增量编码器来感知皮带的移动速度,以m/s为单位。通过结合单位负荷和带速测量,称重机以t/h为单位计算物料流量,典型精度为其全测量范围的±0.5%。输送机中的矿石流量不是由输送带速度决定的,而是由输送带上卸矿的给料机的速度决定的。因此,通过改变给料机(执行器)的速度,可以利用输送机称重器(传感器)提供的测量值来控制矿石流量。这项工作描述了巴西米纳斯吉拉斯州欧鲁普雷图市Fábrica铁矿石加工厂矿石给料系统“RF-A”的矿石流量建模和控制,该工厂由VALE运营。下一节介绍工业过程和控制问题。
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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