1) electrolyzer voltage
槽压
1.
Influence of electrolyzer voltage on regeneration characteristics of desulfurization liquor of sodium alkali;
槽压对钠碱脱硫吸收液再生特性影响的研究
2) press flute
压制凹槽
3) tank voltage
槽电压
1.
Determination of the relationship between current density and tank voltage in electrocoagulation process;
电絮凝过程电流密度与槽电压关系研究
2.
The treatment of industrial wastewater containing phosphorus using bulk electrolysis was investigated by synthetic boron-doped diamond(BDD) thin film electrodes to explore the influences of the time,tank voltage and the distance of electrodes on the rate of the degradation.
用掺硼金刚石(BDD)作电极,采用循环电解法处理含磷工业废水,研究了电解时间、槽电压及电极间距对有化学需氧量(COD)降解率的影响。
3.
The treatment of petroleum wastewater using bulk electrolysis was investigated by synthetic boron-doped diamond(BDD) thin film electrodes to explore the influences of the time,tank voltage and the distance of electrodes on the rate of the degradation.
用BDD(掺硼金刚石)作电极,采用循环电解法处理石油污水,研究了电解时间、槽电压及电极间距对有COD(化学需氧量)降解率的影响,实验发现在槽电压8 V、电极间距2 mm,经过5h电解废水的COD降解率达到了93。
4) cell voltage
槽电压
1.
Factors influencing the cell voltage of electrolyzers of 30DD350 type;
30DD350型电解槽电压的影响因素
2.
The causes of cell voltage increase in ion-exchange membrane caustic soda plants;
离子膜烧碱装置槽电压上升原因
3.
Influential factors and reducing measures of electrolyzer cell voltage;
影响槽电压的因素及降低措施
5) notching-machine
压槽机
1.
The design of the notching-machine is discussed in the article.
文中论述了压槽机的设计过程,为增加设计的可靠性,在设计过程中,对关键零件进行了三维建模,对主要受力对象进行了有限元分析,并给出了分析结果。
6) electrolyzer voltage
槽电压
1.
The problem of electrolyzer voltage rise by K4Fe(CN)6in refining salt was summarized.
进一步总结了精制盐中K4Fe(CN)6引起的槽电压上升问题,提出了不同运行电流、新旧膜和槽在电压上升中的差异,阐述了加强阳极液酸度控制和原盐中K4Fe(CN)6控制等改进措施。
2.
The reason why the voltage of ion-exchange membrane electrolyzer raises is analyzed and the countermeasures are provided,that is,keeping the electrolyzer temperature in the range of 85~90 ℃,ensuring the electrolyzer voltage steady,reducing the shut-down frequency,improving the salt solution quality,reducing the equipment corrosion and upgrading the inspection and repairing quality.
分析离子膜电解槽电压升高的原因;提出改进措施:控制槽温在85~90℃,保证电压平稳,减少停车次数,提高盐水质量,减少设备腐蚀,提高检修质量。
补充资料:板筐式压滤机型电解槽
分子式:
分子量:
CAS号:
性质:多片电极板和隔膜交替放置于框架内,作压滤机状串联。框架边上预留孔道,供电解液在极板间分布流通及气体产物逸出。每个极板的一面作正极,另一面作负极,是为双极性电极(bipolar electrode)。除电解槽的两端有导线连出外,无其他外接线,可较大地降低槽电压,达到较高的时空产率。该电解槽应用较广,如电解水制高纯氢,有机物的电解制备等。
分子量:
CAS号:
性质:多片电极板和隔膜交替放置于框架内,作压滤机状串联。框架边上预留孔道,供电解液在极板间分布流通及气体产物逸出。每个极板的一面作正极,另一面作负极,是为双极性电极(bipolar electrode)。除电解槽的两端有导线连出外,无其他外接线,可较大地降低槽电压,达到较高的时空产率。该电解槽应用较广,如电解水制高纯氢,有机物的电解制备等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条