Slides Show

TESTING IN SITU ALUMINIUM CELL CONTROL WITH DYNA/MARC CELL SIMULATOR 3.51 MEG
USING ANSYS AND CFX TO MODEL ALUMINIUM REDUCTION CELL SINCE 1984 AND BEYOND 8.64 MEG
DEVELOPMENT AND APPLICATION OF AN ANSYS BASED THERMO-ELECTRO-MECHANICAL COLLECTOR BAR SLOT DESIGN TOOL 1.68 MEG
RETROFIT OF A 500 KA CELL DESIGN INTO A 600 KA CELL DESIGN 4.75 MEG
DEVELOPMENT AND APPLICATION OF AN ANSYS® BASED THERMO-ELECTRO-MECHANICAL ANODE STUB HOLE DESIGN TOOL 1.63 MEG
MATHEMATICAL MODELLING OF ALUMINUM REDUCTION CELL POTSHELL DEFORMATION 2.08 MEG
MATHEMATICAL MODELING OF ALUMINIUM REDUCTION CELL POTSHELLS: IMPROVEMENTS AND APPLICATIONS 1.99 MEG
IMPACT OF THE VERTICAL POTSHELL DEFORMATION ON THE MHD CELL STABILITY BEHAVIOR OF A 500 KA ALUMINUM ELECTROLYSIS CELL 2.24 MEG
MODELLING THERMAL DYNAMIC RESPONSE TO A 3-HOUR TOTAL POWER SHUTDOWN EVENT 723 KB
CELL VOLTAGE NOISE REMOVAL AND CELL VOLTAGE (OR RESISTANCE) SLOPE CALCULATION 1.34 MEG
THERMO-ELECTRO-MECHANICAL MODELING OF A HALL-HÉROULT CELL COKE-BED PREHEATING 1.55 MEG
COMPARING THE MHD CELL STABILITY OF AN ALUMINIUM REDUCTION CELL AT DIFFERENT METAL PAD HEIGHT AND LEDGE THICKNESS 1.93 MEG
MHD AND POTSHELL MECHANICAL DESIGN OF A 740 KA CELL 2.16 MEG
BUSBAR SIZING MODELING TOOLS: COMPARING AN ANSYS® BASED 3D MODEL WITH THE VERSATILE 1D MODEL PART OF MHD-VALDIS 1.29 MEG
THERMO-CHEMO-MECHANICAL MODELING OF A HALL-HÉROULT CELL THERMAL BAKE-OUT 2.48 MEG
EXCESS ALF3 CONCENTRATION IN BATH CONTROL LOGIC 1.48 MEG
IMPACT OF USING SELECTIVE COLLECTOR BAR RODDING ON THE MHD STABILITY OF A 500 KA ALUMINIUM ELECTROLYSIS CELL 2.45 MEG
STUDY OF THE THERMALLY-INDUCED SHELL DEFORMATION OF HIGH AMPERAGE HALL-HÉROULT CELLS 1.91 MEG
WEAKLY COUPLED THERMO-ELECTRIC AND MHD MATHEMATICAL MODELS OF AN ALUMINIUM ELECTROLYSIS CELL 3.52 MEG
MODELING ALUMINIUM REDUCTION CELL SINCE 1980 AND BEYOND 3.76 MEG
ACCURATE ASSESSMENT OF THE HIRAKUD SMELTER ALUMINIUM REDUCTION CELL THERMAL BALANCE USING ONLY TEMPERATURE MEASUREMENTS 1.45 MEG
DEMONSTRATION THERMO-ELECTRIC AND MHD MODEL OF A 500 KA AL ELECTROLYSIS CELL: PART 2 2.39 MEG
INTRODUCTION TO THERMO-ELECTRIC MODELING OF ALUMINIUM REDUCTION CELLS 1.63 MEG
USING MATHEMATICAL MODELS TO IMPROVE THE EFFICIENCY OF HALL-HÉROULT CELLS 3.74 MEG
CALCULATING TEMPERATURE UNDER HOOD OF A PREBAKE ANODE CELL 910 KB
DEMONSTRATION THERMO-ELECTRIC AND MHD MODEL OF A 500 KA AL ELECTROLYSIS CELL 1.35 MEG
PERFORMING FAST TREND ANALYSIS ON CELL KEY DESIGN PARAMETERS 1.20 MEG
TOWARDS THE DEVELOPMENT OF A 3D FULL CELL AND EXTERNAL BUSBARS THERMO-ELECTRIC MODEL 1.11 MEG
USING MATHEMATICAL MODELS TO IMPROVE THE THERMAL BALANCE OF HALL-HÉROULT CELLS 1.96 MEG
USING ANSYS TO MODEL ALUMINUM REDUCTION CELL SINCE 1984 AND BEYOND 1.86 MEG
MODELING POWER MODULATION 1.09 MEG
COMPUTATION OF ACCURATE HORIZONTAL CURRENT DENSITY IN METAL PAD USING A FULL QUARTER CELL THERMO-ELECTRIC MODEL 1.24 MEG
3D MODELING OF THE VENTILATION PATTERN IN AN ALUMINIUM SMELTER "POTROOM" BUILDING USING CFX-4 1.58 MEG
USAGE OF A FULL 3D TRANSIENT THERMO-ELECTRIC F.E. MODEL TO STUDY THE THERMAL GRADIENT GENERATED IN THE LINING DURING A COKE PREHEAT 1.11 MEG
DEVELOPMENT OF A 3D TRANSIENT THERMO-ELECTRIC CATHODE PANEL EROSION MODEL OF AN ALUMINUM REDUCTION CELL 930 KB
THERMO-ELECTRIC DESIGN OF A 400 kA CELL USING MATHEMATICAL MODELS: A TUTORIAL 1.21 MEG
DEVELOPMENT OF A 2D+ DYNAMIC MODEL OF AN ALUMINUM REDUCTION CELL 1.10 MEG
USING ANSYS® BASED ALUMINUM REDUCTION CELL ENERGY BALANCE MODELS TO ASSIST EFFORTS TO INCREASE LAURALCO´S SMELTER PRODUCTIVITY 1.47 MEG
COMPUTATION OF ALUMINUM REDUCTION CELL ENERGY BALANCE USING ANSYS® FINITE ELEMENT MODELS 747 KB
INDUSTRIAL ALUMINUM ELECTROLYSIS TMS COURSE CHARLESTON 1997: PROCESS SIMULATION 1.75 MEG
SYMPOSIUM ÉLECTROLYSE 1997 CQRDA: OPTIMISATION DU PROCÉDÉ PAR MODÉLISATION 1.90 MEG
ESTIMATION OF THE GAS EXHAUST RATE REQUIRED ON AN ALUMINIUM REDUCTION CELL DURING START-UP 890 KB
SIMULATION OF THE DYNAMIC RESPONSE OF ALUMINUM REDUCTION CELLS 571 KB
USING A STEADY STATE MODEL OF AN ALUMINUM REDUCTION CELL TO INVESTIGATE THE IMPACT OF DESIGN CHANGES 961 KB
PROCESS SIMULATION OF ALUMINUM REDUCTION CELLS 507 KB

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