ANSYS 3D T/E Models




ANSYS 3D T/E MODELS RELATED PUBLICATIONS

ANSYS 3D T/E MODELS BROCHURE

INFLUENCE OF THE CATHODE SURFACE GEOMETRY ON THE METAL PAD CURRENT DENSITY
1.85 MEG

IN DEPTH ANALYSIS OF ENERGY-SAVING AND CURRENT EFFICIENCY IMPROVEMENT OF ALUMINUM REDUCTION CELLS
953 KB

ENERGY SAVING FROM A REDUCTION POT (as published)
675 KB

DEPTH ANALYSIS AND POTENTIALITY EXPLOITATION ON ENERGY-SAVING AND CONSUMPTION-REDUCTION OF ALUMINUM REDUCTION POT
1.59 MEG

MODELING CATHODE COOLING DUE TO POWER INTERRUPTION
499 KB

MODELLING CATHODE COOLING AFTER POWER SHUTDOWN (as published)
2.55 MEG

MODELLING CATHODE COOLING AFTER POWER SHUTDOWN (as submitted)
1.10 MEG

USING ANSYS AND CFX TO MODEL ALUMINIUM REDUCTION CELL SINCE 1984 AND BEYOND
2.67 MEG

RETROFIT OF A 500 KA CELL DESIGN INTO A 600 KA CELL DESIGN

BUSBAR SIZING MODELING TOOLS: COMPARING AN ANSYS® BASED 3D MODEL WITH THE VERSATILE 1D MODEL PART OF MHD-VALDIS

IMPACT OF USING SELECTIVE COLLECTOR BAR RODDING ON THE MHD STABILITY OF A 500 KA ALUMINIUM ELECTROLYSIS CELL

WEAKLY COUPLED THERMO-ELECTRIC AND MHD MATHEMATICAL MODELS OF AN ALUMINIUM ELECTROLYSIS CELL

THERMO-ELECTRIC DESIGN OF A 740 kA CELL, IS THERE A SIZE LIMIT?

ACCURATE ASSESSMENT OF THE HIRAKUD SMELTER ALUMINIUM REDUCTION CELL THERMAL BALANCE USING ONLY TEMPERATURE MEASUREMENTS

DEMONSTRATION THERMO-ELECTRIC AND MHD MODEL OF A 500 KA AL ELECTROLYSIS CELL: PART 2

DEMONSTRATION THERMO-ELECTRIC AND MHD MODEL OF A 500 KA AL ELECTROLYSIS CELL

INDIAN ALUMINIUM SMELTERS ROADMAP SELECTS MATHEMATICAL MODELING AS KEY STRATEGIC ACTIVITY

PERFORMING FAST TREND ANALYSIS ON CELL KEY DESIGN PARAMETERS

TOWARDS THE DEVELOPMENT OF A 3D FULL CELL AND EXTERNAL BUSBARS THERMO-ELECTRIC MODEL

USING MATHEMATICAL MODELS TO IMPROVE THE THERMAL BALANCE OF HALL-HÉROULT CELLS

USING ANSYS TO MODEL ALUMINUM REDUCTION CELL SINCE 1984 AND BEYOND

MODELING POWER MODULATION

COMPUTATION OF ACCURATE HORIZONTAL CURRENT DENSITY IN METAL PAD USING A FULL QUARTER CELL THERMO-ELECTRIC MODEL

USAGE OF A FULL 3D TRANSIENT THERMO-ELECTRIC F.E. MODEL TO STUDY THE THERMAL GRADIENT GENERATED IN THE LINING DURING A COKE PREHEAT

DEVELOPMENT OF A 3D TRANSIENT THERMO-ELECTRIC CATHODE PANEL EROSION MODEL OF AN ALUMINUM REDUCTION CELL

THERMO-ELECTRIC DESIGN OF A 400 kA CELL USING MATHEMATICAL MODELS: A TUTORIAL

DEVELOPMENT OF A 2D+ DYNAMIC MODEL OF AN ALUMINUM REDUCTION CELL

USING ANSYS® BASED ALUMINUM REDUCTION CELL ENERGY BALANCE MODELS TO ASSIST EFFORTS TO INCREASE LAURALCO´S SMELTER PRODUCTIVITY

ANALYSIS SOLUTIONS SPRING 1998: ALUMINUM ELECTROLYSIS PROCESS SIMULATION

COMPUTATION OF ALUMINUM REDUCTION CELL ENERGY BALANCE USING ANSYS® FINITE ELEMENT MODELS

INDUSTRIAL ALUMINUM ELECTROLYSIS TMS COURSE CHARLESTON 1997: PROCESS SIMULATION

SYMPOSIUM ÉLECTROLYSE 1997 CQRDA: OPTIMISATION DU PROCÉDÉ PAR MODÉLISATION

MODELING OF ALUMINUM REDUCTION CELLS USING FINITE ELEMENT ANALYSIS TECHNIQUES

EVALUATION OF THERMAL STRESSES DUE TO COKE PREHEAT OF A HALL-HÉROULT CELL

THERMO-ELECTRO-MAGNETIC MODELING OF A HALL-HÉROULT CELL

THERMO-ELECTRIC ANALYSIS OF THE GRANDE-BAIE ALUMINUM REDUCTION CELL

ANSYS NEWS: ANSYS IN THE ALUMINUM INDUSTRY

THERMAL STUDY OF THE COKE PREHEATING FOR HALL-HÉROULT CELL

THERMO-ELECTRIC ANALYSIS OF ALUMINUM REDUCTION CELLS

THERMO-ELECTRIC COUPLED FIELD ANALYSIS OF ALUMINUM REDUCTION CELLS USING THE ANSYS PARAMETRIC DESIGN LANGUAGE





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