Title
Data-Driven Abnormal Condition Identification and Self-Healing Control System for Fused Magnesium Furnace
Abstract
In the smelting process of fused magnesium furnaces (FMFs), frequent changes in the raw material granule size and impurity constituent will cause the arc resistance between the lower end of the electrode and the surface of the molten pool to vary, and thus, the smelting currents fluctuate. Consequently, abnormal conditions, which can arise if the setpoints of electrode currents are not properly adjusted on time, will cause the performance to deteriorate or even the overall operation to stall. Through analysis of the characteristics of different operating conditions, this paper presents a data-driven abnormal condition identification and self-healing control system. The proposed system extracts the identification rules according to the current tracking error, as well as the rate and duration of the current fluctuations, and identifies the abnormal conditions based on rule-based reasoning. The self-healing control is developed using case-based reasoning to correct the current setpoints based on the identification results. The outputs of the control loop track the corrected setpoints, thereby forcing the process to recover from the abnormal conditions. The proposed method and the developed control system have been applied to a real FMF, and substantial improvement is achieved with many benefits provided to the factory. The implementation results show that occurrence of abnormal conditions has been reduced by more than 50%, and the product quality has been increased by more than 2%.
Year
DOI
Venue
2015
10.1109/TIE.2014.2349479
IEEE Transactions on Industrial Electronics
Keywords
Field
DocType
case-based reasoning (cbr),abnormal conditions identification,electrode currents,raw material granule size,self-healing control system,arc resistance,rule-based reasoning (rbr),furnaces,process control,identification,production engineering computing,case-based reasoning,self-healing control,rule-based reasoning,impurity constituent,control engineering computing,raw materials,control loop track outputs,current tracking error,fmfs,molten pool surface,data-driven,electrodes,smelting currents,fused magnesium furnace (fmf),data-driven abnormal condition identification,current setpoints,fused magnesium furnace,smelting process,smelting,heating,resistance,rule based reasoning,case based reasoning
Self-healing,Smelting,Data-driven,Control theory,Process control,Control system,Engineering,Arc resistance,Tracking error
Journal
Volume
Issue
ISSN
62
3
0278-0046
Citations 
PageRank 
References 
6
0.58
19
Authors
4
Name
Order
Citations
PageRank
Zhiwei Wu161.59
Yongjian Wu210617.01
Tianyou Chai32014175.55
Jing Sun449188.35