The energyEnergy balance of electrolysis cellElectrolysis cell serves as the foundation for supporting energy conservationEnergy conservation and consumption reduction. Based on electrolysis cellElectrolysis cell with relatively reasonable heat dissipation values and proportions of each region, this paper analyzes control methods and measures for regional energyEnergy balance distribution, mainly including adjustment of electrolysisElectrolysis fume gas from the anodeAnode area, thermal insulation of cell hoodsCell hoods, heat dissipation reduction during anodeAnode changing, optimizationOptimization of lining design in the cathode area, adjustment of melt height and electrolysisElectrolysis temperature, etc. When implementing systematic energy savingEnergy saving, it is necessary to design lining structure based on the energy consumptionEnergy consumption target and electrolyteElectrolyte system to ensure the thermal insulation effect of the lining itself. Secondly, the impact of various technologies on the energyEnergy balance of each region should be comprehensively considered to maintain regional heat dissipation within a suitable range and reasonable proportion, to achieve optimal economic and technical indicators.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Analysis of Regional Energy Balance Control Strategy for Aluminum Electrolysis Cell

  • Lifen Luo,
  • Shengzhong Bao,
  • Changlin Li,
  • Bin Fang,
  • Yongfeng Cao,
  • Junqing Wang,
  • Yadong Wang,
  • Zhenhua Yang

摘要

The energyEnergy balance of electrolysis cellElectrolysis cell serves as the foundation for supporting energy conservationEnergy conservation and consumption reduction. Based on electrolysis cellElectrolysis cell with relatively reasonable heat dissipation values and proportions of each region, this paper analyzes control methods and measures for regional energyEnergy balance distribution, mainly including adjustment of electrolysisElectrolysis fume gas from the anodeAnode area, thermal insulation of cell hoodsCell hoods, heat dissipation reduction during anodeAnode changing, optimizationOptimization of lining design in the cathode area, adjustment of melt height and electrolysisElectrolysis temperature, etc. When implementing systematic energy savingEnergy saving, it is necessary to design lining structure based on the energy consumptionEnergy consumption target and electrolyteElectrolyte system to ensure the thermal insulation effect of the lining itself. Secondly, the impact of various technologies on the energyEnergy balance of each region should be comprehensively considered to maintain regional heat dissipation within a suitable range and reasonable proportion, to achieve optimal economic and technical indicators.