无隔板镁电解槽，中文例句，英文例句-词都网

1.

Saving Energy Practice of Large-scale Baffleless Magnesium Reduction Cell in Production Process of Titanium Sponge Produced by Kroll Method

镁法海绵钛生产工艺中大型无隔板镁电解槽的节能实践

2.

Brief discussion on reclaiming chlorine concentration in magnesium electrolysis production process of large baffleless magnesium reduction cell

浅谈大型无隔板镁电解槽生产过程中提高氯气回收浓度的途径

3.

MA cell diaphragm cell with metal anodes 点击朗读

金属阳极隔膜电解槽

4.

The model experiment study on magnesium electrolyser 点击朗读

镁电解槽的冷模实验与数值模拟研究

5.

The Study of Degradation of Organic Pollutants on Cathode; 点击朗读

隔膜电解槽阴极区降解有机物的研究

6.

Studies on the Preparation of Anhydrous MgCl_2 Used in Manufacture of Metal Magnesium from Bischofite Abundant in Salt Lakes by Ammoniation Processes;

盐湖富产水氯镁石氨法脱水制备电解镁用无水氯化镁的化学研究

7.

Adoption of energy-efficient electrolyzer for guaranteeing operation of diaphragm elcetrolysis with high load

采用节能型电解槽保障隔膜电解在高负荷下运行

8.

Process of Phenol Degradation in a Divided Electrolytic Cell with Biofilm-cathode and Optimization of Conditions

隔膜式电解槽生物膜阴极降解苯酚的过程及其条件的优化

9.

Treatment of Landfill Leachates by Electrodialysis in Three-chamber Cell Divided by Two Membranes

阴阳离子双隔膜三室电解槽电渗析处理垃圾渗滤液

10.

Influences of anode flow field distribution on pitting corrosion of titanium plates in 38DD350 type electrolyzers

38DD350型电解槽阳极流场分布对钛板点蚀的影响

11.

Analysis of Titanium and Steel Plate's Corrosion of 38DD350 Type Ion-exchange Membrane Electrolyzer Cell

38DD350型电解槽钛板及钢板腐蚀原因分析及密封条设计

12.

Application of Non-asbestos Membrane for Alkaline Water Electrolysis 点击朗读

无石棉隔膜在碱性电解水领域的应用

13.

bath [electrolytic chromium process] 点击朗读

电解槽〔电解铬工序〕

14.

production-scale cell 点击朗读

生产用电解槽,大型电解槽

15.

Study on electrochemical oxidation conditions of phenol wastewater in the plate and frame electrolytic cell

板框式电解槽中电氧化处理苯酚模拟废水的工艺研究

16.

The problems in current increase of diaphragm electrolyzer and the countermeasures were introduced.

介绍了在隔膜电解槽电流提升过程中所遇到的问题及采取的解决方法和措施。

17.

It is of great significance to select the gel-electroyte and separators in developing gel-lead-acid batteries.

开发胶体蓄电池,用什么胶体电解质和隔板,是首要解决的问题。

18.

Improving Insulation of Electric Tank Slot Cover to Eliminate Electricity Leakage of Slot Cover

改进铝电解槽槽罩绝缘性能,消除槽罩漏电



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	您的位置：首页 -> 句库 -> 无隔板镁电解槽 1. Saving Energy Practice of Large-scale Baffleless Magnesium Reduction Cell in Production Process of Titanium Sponge Produced by Kroll Method 镁法海绵钛生产工艺中大型无隔板镁电解槽的节能实践 2. Brief discussion on reclaiming chlorine concentration in magnesium electrolysis production process of large baffleless magnesium reduction cell 浅谈大型无隔板镁电解槽生产过程中提高氯气回收浓度的途径 3. MA cell diaphragm cell with metal anodes 金属阳极隔膜电解槽 4. The model experiment study on magnesium electrolyser 镁电解槽的冷模实验与数值模拟研究 5. The Study of Degradation of Organic Pollutants on Cathode; 隔膜电解槽阴极区降解有机物的研究 6. Studies on the Preparation of Anhydrous MgCl_2 Used in Manufacture of Metal Magnesium from Bischofite Abundant in Salt Lakes by Ammoniation Processes; 盐湖富产水氯镁石氨法脱水制备电解镁用无水氯化镁的化学研究 7. Adoption of energy-efficient electrolyzer for guaranteeing operation of diaphragm elcetrolysis with high load 采用节能型电解槽保障隔膜电解在高负荷下运行 8. Process of Phenol Degradation in a Divided Electrolytic Cell with Biofilm-cathode and Optimization of Conditions 隔膜式电解槽生物膜阴极降解苯酚的过程及其条件的优化 9. Treatment of Landfill Leachates by Electrodialysis in Three-chamber Cell Divided by Two Membranes 阴阳离子双隔膜三室电解槽电渗析处理垃圾渗滤液 10. Influences of anode flow field distribution on pitting corrosion of titanium plates in 38DD350 type electrolyzers 38DD350型电解槽阳极流场分布对钛板点蚀的影响 11. Analysis of Titanium and Steel Plate's Corrosion of 38DD350 Type Ion-exchange Membrane Electrolyzer Cell 38DD350型电解槽钛板及钢板腐蚀原因分析及密封条设计 12. Application of Non-asbestos Membrane for Alkaline Water Electrolysis 无石棉隔膜在碱性电解水领域的应用 13. bath [electrolytic chromium process] 电解槽〔电解铬工序〕 14. production-scale cell 生产用电解槽,大型电解槽 15. Study on electrochemical oxidation conditions of phenol wastewater in the plate and frame electrolytic cell 板框式电解槽中电氧化处理苯酚模拟废水的工艺研究 16. The problems in current increase of diaphragm electrolyzer and the countermeasures were introduced. 介绍了在隔膜电解槽电流提升过程中所遇到的问题及采取的解决方法和措施。 17. It is of great significance to select the gel-electroyte and separators in developing gel-lead-acid batteries. 开发胶体蓄电池,用什么胶体电解质和隔板,是首要解决的问题。 18. Improving Insulation of Electric Tank Slot Cover to Eliminate Electricity Leakage of Slot Cover 改进铝电解槽槽罩绝缘性能,消除槽罩漏电

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