Process Modeling in Pyrometallurgical Engineering
Process Modeling in Pyrometallurgical Engineering
English[eng]
9783040000000
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||COREX||raceway zone||gas flow||COREX melter gasifier||mixed charging||burden layer structure||burden pile width||DEM||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||multiple linear regression||ironmaking blast furnace||coke bed||trickle flow||molten slag||liquid iron||SPH||charging system||mathematical model||radar data||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||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||biomass||quasi-particle||quasi-particle structure||monomer blended fuel||quasi-particle fuel||apparent activation energy||coupling effect||dynamic model||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||physical modeling||mathematical modeling||kinetic models||natural gas||fuel injection||combustion||RAFT||roll design||flat-rolled wire||strain inhomogeneity||normal pressure||macroscopic shear bands||numerical model||dual gas injection||slag eye||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
English[eng]
9783040000000
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||COREX||raceway zone||gas flow||COREX melter gasifier||mixed charging||burden layer structure||burden pile width||DEM||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||multiple linear regression||ironmaking blast furnace||coke bed||trickle flow||molten slag||liquid iron||SPH||charging system||mathematical model||radar data||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||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||biomass||quasi-particle||quasi-particle structure||monomer blended fuel||quasi-particle fuel||apparent activation energy||coupling effect||dynamic model||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||physical modeling||mathematical modeling||kinetic models||natural gas||fuel injection||combustion||RAFT||roll design||flat-rolled wire||strain inhomogeneity||normal pressure||macroscopic shear bands||numerical model||dual gas injection||slag eye||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