1) black voltage when cell shutting
停槽黑电压
2) conductive channel black
导电槽黑
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) 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。
6) bath voltage
槽电压
1.
The article is analyze to analyze four parts of diaphragmatic electrobath voltage and the various factors of every parts as well as controlling those factors to decrease the diaphragmatic electrobath voltage, and gives account of general situation and development of this aspect which is good references for the technician to study, design and operate the diaphragmatic electrobath voltage.
从降低电解槽槽电压的角度 ,对槽电压组成的四个部分以及每一部分的各种因素进行了详细的分析 ,并讨论了如何控制这些因素来降低槽电压 ,同时介绍了这方面的现状和进展。
2.
Taking DELL 486 computer as management computer,taking SYSMAC C1000H programmable controller as control computer,according to the mathematical model corrected by bath resistance adding current waving,to automatically regulate the pole distance,control bath voltage,thus the production can be stabilized,the current efficiency can be increased,power can be saved of 323kW·h/t·A
用DELL486 微机作管理机,用SYSM AC C1000H 可编程序控制器作控制机,根据槽电阻加电流波动校正的数学模型,自动调整极距,控制槽电压,稳定生产,提高了电流效率,节电323kW ·h/t·Al,并减轻了劳动强度。
补充资料:瓦斯槽黑
分子式:
分子量:
CAS号:
性质:炭黑的一种。以天然气为主要原料,在一定压力下将天然气通至缝式火嘴,在火房内与空气接触燃烧、裂解生成,并经往复移动的槽铁面冷却收集而得。焦烧性能较好,硫化速度较慢。配入胶料后,橡胶与金属的附着力较高,抗撕裂和耐疲劳性能比炉法炭黑好。
分子量:
CAS号:
性质:炭黑的一种。以天然气为主要原料,在一定压力下将天然气通至缝式火嘴,在火房内与空气接触燃烧、裂解生成,并经往复移动的槽铁面冷却收集而得。焦烧性能较好,硫化速度较慢。配入胶料后,橡胶与金属的附着力较高,抗撕裂和耐疲劳性能比炉法炭黑好。
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