Gas injection in steelmaking vessels: coupling a fluid dynamic analysis with a genetic algorithms-based pareto-optimality

Kumar, A. ; Sahoo, D. ; Chakraborty, S. ; Chakraborti, N. (2005) Gas injection in steelmaking vessels: coupling a fluid dynamic analysis with a genetic algorithms-based pareto-optimality Materials and Manufacturing Processes, 20 (3). pp. 363-379. ISSN 1042-6914

Full text not available from this repository.

Official URL: http://www.tandfonline.com/doi/abs/10.1081/AMP-200...

Related URL: http://dx.doi.org/10.1081/AMP-200053434

Abstract

A genetic algorithms-based multiobjective optimization study has been carried out for the bottom gas injection process practiced in the steelmaking vessels. Two objective functions, one dealing with the efficacy of mixing and the second one characterizing the stress level at the ladle walls, have been evaluated from a numerical solution of coupled Reynolds averaged transient Navier-Stokes equations, energy and species conservation equations, as well as governing equations for turbulent kinetic energy and its dissipation rate. A Pareto front has been constructed by using the recently proposed Strength-Pareto Evolutionary Algorithm and the corresponding flow fields have been computed by using a pressure-based finite volume methodology. It has been inferred that judicious combinations of the two objective functions can be obtained from the simulation results, leading to an optimal process control.

Item Type:Article
Source:Copyright of this article belongs to Taylor and Francis Group.
Keywords:Evolutionary Computation; Finite Volume Technique; Fluid Flow; Gas Injection; Genetic Algorithms; Multiobjective Optimization; Navier-Stokes Equation; Pareto Front; Steelmaking; Turbulence
ID Code:101197
Deposited On:26 Dec 2016 07:27
Last Modified:26 Dec 2016 07:27

Repository Staff Only: item control page