A CPS Based Optimal Operational Control System for Fused Magnesium Furnace

Tian you Chai, Zhi wei Wu, Hong Wang

Research output: Contribution to journalArticlepeer-review

15 Scopus citations

Abstract

Fused magnesia smelting for fused magnesium furnace (FMF) is an energy intensive process with high temperature and comprehensive complexities. Its operational index namely energy consumption per ton (ECPT) is defined as the consumed electrical energy per ton of acceptable quality and is difficult to measure online. Moreover, the dynamics of ECPT cannot be precisely modelled mathematically. The model parameters of the three-phase currents of the electrodes such as the molten pool level, its variation rate and resistance are uncertain and nonlinear functions of the changes in both the smelting process and the raw materials composition. In this paper, an integrated optimal operational control algorithm is proposed and is composed of a current set-point control, a current switching control and a self-optimized tuning mechanism. The tight conjoining of and coordination between the computational resources including the integrated optimal operational control, embedded software, industrial cloud, wireless communication and the physical resources of FMF constitutes a cyber-physical system (CPS) based embedded optimal operational control system. Successful application of this system has been made for a production line with ten fused magnesium furnaces in a factory in China, leading to a significant reduced ECPT.

Original languageEnglish
Pages (from-to)14992-14999
Number of pages8
Journal20th IFAC World Congress
Volume50
Issue number1
DOIs
StatePublished - Jul 2017
Externally publishedYes

Keywords

  • Fused magnesium furnace
  • cyber-physics system
  • embedded control systems
  • optimal operational control

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