Process Modeling in Pyrometallurgical Engineering

© 2022 by the authors; CC BY-NC-ND license

steelmaking; oxygen consumption; GPR; prediction model; secondary refining; water model; mixing time; slag entrapment; stainless steel slag; heating time; Cr₂O₃; spinel; crystal size; processing maps; nickel-based alloy; flow behavior; arrhenius equation; hearth; drainage; PCA; analysis tool; pattern; tapholes; blast furnace; coke; carbon solution loss; numerical simulation; pellet pile; Discrete Element Method; porosity distribution; angle of repose; coordination number; bubble motion; interfacial phenomena; entrainment; moving path; arsenopyrite; arsenic removal; mechanism; roasting; arsenate; dust ash; arsenic recovery; titanium distribution ratio; thermodynamic model; ion–molecule coexistence theory; LF refining slags; electric arc furnace; simulation; process model; steelmaking; COREX; raceway zone; numerical simulation; gas flow; COREX melter gasifier; mixed charging; burden layer structure; burden pile width; DEM; blast furnace; burden distribution; particle flow; validation; tire cord steel; TiN inclusion; solidification; segregation models; hot rolling; TOU electricity pricing; hot rolling planning; genetic algorithm; C-H₂ smelting reduction furnace; double-row side nozzles; dimensional analysis; mixing time; multiple linear regression; ironmaking blast furnace; coke bed; trickle flow; molten slag; liquid iron; SPH; blast furnace; charging system; mathematical model; radar data; burden distribution; main trough; transient fluid of hot metal and molten slag; wall shear stress; conjugate heat transfer; refractory; shape rolling; flat rolling; wire rod; temperature distribution; machine learning; artificial intelligence; neural network; BOS reactor; steelmaking; arsenic removal; copper smelting; SKS; Shuikoushan process; oxygen bottom blown; gated recurrent unit; support vector data description; time sequence prediction; fault detection and identification; Lignite; microwave and ultrasound modification; structural characterization; 3D molecular model; structural simulation; coke combustion rate; charcoal combustion rate; iron ore sintering process; temperature distribution; biomass; quasi-particle; quasi-particle structure; monomer blended fuel; quasi-particle fuel; apparent activation energy; coupling effect; dynamic model; simulation; basic oxygen furnace; computational fluid dynamics; CFD–DEM; coalescence; settling; funneling flow; horizontal single belt casting process (HSBC); computational fluid dynamics (CFD); double impingement feeding system; supersonic coherent jet; decarburization; steel refining; EAF; CFD; mass transfer coefficient; mixing time; physical modeling; mathematical modeling; kinetic models; blast furnace; natural gas; fuel injection; computational fluid dynamics; numerical simulation; combustion; RAFT; roll design; flat-rolled wire; strain inhomogeneity; normal pressure; macroscopic shear bands; secondary refining; numerical model; dual gas injection; slag eye; mixing time; electrical energy consumption; Electric Arc Furnace; scrap melting; statistical modeling; raceway evolution; raceway size; flow pattern; Eulerian multiphase flow; blast furnace hearth; dead man; iron and slag flow; lining wear; hearth drainage; Industry 4.0; copper smelter; nickel-copper smelter; radiometric sensors; Peirce-smith converting; matte-slag chemistry; discrete event simulation; adaptive finite differences; n/a