MHD-VALDIS RELATED PUBLICATIONS
MHD-VALDIS 2021 BROCHURE
FIRST ATTEMPT TO BREAK THE 10 KWH/KG BARRIER USING A WIDE CELL DESIGN (as published)
5.90 MEG
BREAKING THE 11 KWH PER KG BARRIER (as published)
8.38 MEG
DESIGNING CELLS FOR THE FUTURE -WIDER AND/OR EVEN HIGHER AMPERAGE?
480 KB
LOW ENERGY CONSUMPTION CELL DESIGNS INVOLVING COPPER INSERTS AND AN INNOVATIVE BUSBAR NETWORK LAYOUT
2.47 MEG
NEW BUSBAR NETWORK CONCEPTS TAKING ADVANTAGE OF COPPER COLLECTOR BARS TO REDUCE BUSBAR WEIGHT AND INCREASE CELL POWER EFFICIENCY
2.92 MEG
A NEW ALUMINIUM ELECTROLYSIS CELL BUSBAR NETWORK CONCEPT
2.81 MEG
NON-LINEAR STABILITY ANALYSIS OF CELLS HAVING DIFFERENT TYPES OF CATHODE SURFACE GEOMETRY
2.56 MEG
CELL STABILITY STUDIES USING THE MOST RECENT MHD-VALDIS CODE VERSION (as submitted)
1.17 MEG
INFLUENCE OF THE CATHODE SURFACE GEOMETRY ON THE METAL PAD CURRENT DENSITY
1.85 MEG
PRODUCTION APPLICATION STUDY ON MAGNETO-HYDRO-DYNAMIC STABILITY OF A LARGE PREBAKED ANODE ALUMINUM REDUCTION CELL
1.74 MEG
RETROFIT OF A 500 KA CELL DESIGN INTO A 600 KA CELL DESIGN
TIME DEPENDENT MHD MODELS FOR ALUMINIUM REDUCTION CELLS
SOLUTIONS FOR THE METAL-BATH INTERFACE IN ALUMINIUM ELECTROLYSIS CELLS
IMPACT OF THE VERTICAL POTSHELL DEFORMATION ON THE MHD CELL STABILITY BEHAVIOR OF A 500 KA ALUMINUM ELECTROLYSIS CELL
SHALLOW WATER MODEL FOR ALUMINIUM ELECTROLYSIS CELLS WITH VARIABLE TOP AND BOTTOM
COMPARING THE MHD CELL STABILITY OF AN ALUMINIUM REDUCTION CELL AT DIFFERENT METAL PAD HEIGHT AND LEDGE THICKNESS
BUSBAR SIZING MODELING TOOLS: COMPARING AN ANSYS
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BASED 3D MODEL WITH THE VERSATILE 1D MODEL PART OF MHD-VALDIS
COMPARISON OF MHD MODELS FOR ALUMINIUM REDUCTION CELLS
MHD AND POTSHELL MECHANICAL DESIGN OF A 740 KA CELL
TIME DEPENDENT ELECTRIC, MAGNETIC AND HYDRODYNAMIC INTERACTION IN ALUMINIUM ELECTROLYSIS CELLS
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
DEMONSTRATION THERMO_ELECTRIC AND MHD MATHEMATICAL MODELS OF A 500 kA ELECTROLYSIS CELL: PART 2
DEMONSTRATION THERMO_ELECTRIC AND MHD MATHEMATICAL MODELS OF A 500 kA ELECTROLYSIS CELL
MODELLING THE DYNAMICS OF ELECTROMAGNETICALLY AGITATED METALLURGICAL FLOWS: LEVITATION, COLD CRUCIBLE, ALUMINIUM ELECTROLYSIS, ETC.
NON-LINEAR WAVE MODELS FOR ALUMINIUM REDUCTION CELLS
THE SHALLOW WATER APPROXIMATION APPLIED TO THE ALUMINIUM ELECTROLYSIS PROCESS
NON-LINEAR WAVES WITH ELECTROMAGNETIC INTERACTION IN ALUMINIUM ELECTROLYSIS CELLS
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