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Ironmaking & Steelmaking
Processes, Products and Applications
Volume 37, 2010 - Issue 5
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Articles

Analysing blast furnace data using evolutionary neural network and multiobjective genetic algorithms

A. Agarwala Department of Metallurgical & Materials Engineering Indian Institute of Technology, Kharagpur721 302, India
,
U. Tewaryb R&D Division, TATA Steel, Jamshedpur831 001, India
,
F. Petterssonc Thermal and Flow Engineering Laboratory Department of Chemical Engineering, Åbo Akademi University, Biskopsgatan 8, FI20500 Åbo, Finland
,
S. Dasb R&D Division, TATA Steel, Jamshedpur831 001, India
,
H. Saxénc Thermal and Flow Engineering Laboratory Department of Chemical Engineering, Åbo Akademi University, Biskopsgatan 8, FI20500 Åbo, Finland
&
N. Chakrabortid Department of Metallurgical & Materials Engineering Indian Institute of Technology, Kharagpur721 302, India;, Email: [email protected]
Pages 353-359 | Published online: 18 Jul 2013
 
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Abstract

Approximately one year's operational data of a TATA Steel blast furnace were subjected to a multiobjective optimisation using genetic algorithms. Data driven models were constructed for productivity, CO2 content of the top gas and Si content of the hot metal, using an evolutionary neural network that itself evolved through a multiobjective genetic algorithm as a tradeoff between the accuracy of training and the network complexity. The final networks were selected using the corrected Akaike information criterion. Bi-objective optimisation studies were subsequently carried out between the productivity and CO2 content with various constraints at the Si level in the hot metal. The results indicate that a productivity increase would entail either a compromise of the CO2 fraction in the top gas or the Si content in the hot metal. The Pareto frontiers presented in this study provide the best possible parameter settings in such a scenario.

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