稀土电解槽电场仿真与阴极结构优化-【维普期刊官网】- 中文 . . . The results showed that the electric field distribution of the bottom hemispherical cathode electrolysis cell is more even, which avoids local overheating of the electrolysis cell, and is beneficial to increase the current efficiency and service life of rare earth electrolysis cell
Electric Field Numerical Simulation and Cathode Structure Optimization . . . In order to study the effect of the cathode rods corrosion and the installed cathode rods sleeve on the electric field distribution, and the effect of new electrode structure on the electric field distribution, a traditional rare earth electrolysis cell 3-D model was established by ANSYS
稀土电解槽数值模拟研究现状及发展趋势-Research Status . . . The development, design and structure optimization of rare earth electrolytic cell were summarized based on numerical simulation method, the simulation work that still needs to be improved or supplemented were put forward, and the future development direction of rare earth electrolytic cell were outlooked
Numerical Simulation ofElectric Field in 60kA Immersion . . . Computer simulation of the electric field in rare earth electrolysis cell A mathematical model of the electric field in the rare earth electrolysis cell is developed and then calculated by finite differential method The result pr
60 kA沉浸式稀土电解槽电场的数值模拟-Numerical Simulation . . . Abstract: Basic size structure of new 60 kA immersion rare earth electrolytic cell was designed and developed by calculation Three dimensional electric field calculation model of electrolyzer was established with numerical simulation software
Current Efficiency Comparison of Two Types of Rare Earth . . . - Springer The flow fields of a conventional vertical cathode rare earth electrolytic cell (CVCEC) and a bottom cathode rare earth electrolytic cell (BCEC) were simulated by a multiphase flow model The VOF model was used to simulating the flow fields of the two types of cells
Numerical simulation of electric and flow fields of 8kA rare earth . . . Based on Comsol multi-physics field simulation software for finite element simulation of 8kA rare-earth electrolyzer, electrochemical and turbulence models were applied to simulate the cloud diagrams of electric field current density and flow velocity distribution for the electrolyzer actually operated under the given process parameters
Research Status and Developing Trend of Numerical Simulation in Rare . . . The development, design and structure optimization of rare earth electrolytic cell were summarized based on numerical simulation method, the simulation work that still needs to be improved or supplemented were put forward, and the future development direction of rare earth electrolytic cell were outlooked