微电流电解,micro-current
1)micro-current微电流电解
英文短句/例句

1.APPLICATION OF MICRO-CURRENT DISINFECTION TECHNOLOGY IN SEA WATER微电流电解消毒技术在海水维生系统中的应用
2.The Investigation on the Electrochemical Micromachining (ECMM) with Nanosecond-Pulse Current;纳秒脉冲电流微细电解加工技术研究
3.Experimental Research of Pulses Electrochemical Machining for Micro Structure;脉冲电流电解加工微细结构的试验研究
4.A New on-Column Conductivity Detection for Microchip Based on Accessional Solution Conductor Between Separation Channel and Electrodes微流控芯片电解质介导连接在柱式电导检测
5.electrolytic battery regulator电解式充电电流调节器
6.micro laminated tantalum electrolytic condenser微型钽片电解电容器
7.Effect of different flow field configuration in ECM for micro-spiral hole不同流场构型对微细螺旋孔电解加工的影响
8.Study on the Power-Control Strategies based on current decomposition in Micro-grid基于电流分解的微网功率控制策略研究
9.Particle Swarm Optimization and Application to Electrolytic Zinc Process Power Supply System;微粒群算法及其在锌电解整流供电系统优化中的应用研究
10.Numerical Simulation Analysis of Single-phase Flow Field in Micro-flow-channels of the Small Square Cylinders in the Electrolysis Oxygen Generation.电解水制氧槽方柱群微小流道单相流场数值模拟分析
11.microcomputer alternating current resistivity instrument微机化交流电阻率仪器
12.miniature magnetic DC motor微型永磁直流电动机
13.metadyne transformer微场扩流发电机变压器
14.capacitor detector电容式微流星探测器
15.Chemical change, especially decomposition, produced in an electrolyte by an electric current.电解电流在电解质内产生的化学变化,尤指分解
16.ANALYTIC SOLUTIONS OF SOLAR CELL MODEL PARAMETERS太阳电池一般电流模型参数的解析解
17.The Research on Rectifier DC Electrical Source for Electrolyzing Cuprum and Monitor Technique;电解铜整流直流电源及监控技术研究
18.Fabrication of metal micro electrode array using for the micro ECM by UV-LIGAUV-LIGA制作微细电解阵列电极
相关短句/例句

Electrolytic Current电解电流
3)micro-electrolysis微电解
1.Pretreating of wastewater from vitamin B_1 production by coagulation - micro-electrolysis process;混凝—微电解预处理维生素B_1生产废水
2.The treatment of the highly concentrated chemical wastewater by the aerated micro-electrolysis and flocculation-deposition process;曝气微电解—絮凝沉淀法处理高浓度化工废水
3.Treatment of printing and dyeing wastewater by micro-electrolysis method;铝炭微电解法对印染废水的处理
4)microelectrolysis微电解
1.Treatment of direct scarlet 4BE dye wastewater by the hybrid method of Fe/C microelectrolysis and ultrasound radiation;超声波/铁-炭微电解耦合处理直接大红4BE染料废水
2.Application of microelectrolysis-biomembrane process to the treatment of Ba~(2+)-bearing organic wastewater;微电解—生物膜复合工艺处理含Ba~(2+)有机废水
3.Study on the process of dyestuff wastewater treatment by microelectrolysis;铁屑微电解法处理染料废水
5)micro electrolysis微电解
1.Study on Treating Pharmaceutical Wastewater and Furfural Wastewater with Ferric-carbon Micro electrolysis;铁炭微电解法预处理制药废水的研究
2.A study on water-based ink wastewater treatment with ferric filings micro electrolysis;铁屑微电解法处理水性油墨废水的研究
3.A study on nekal BX wastewater treatment with ferric-carbon micro electrolysis;铁炭微电解法处理拉开粉废水的研究
6)micro-electrolysis process微电解法
1.Treatment of oil-bearing wastewater from restaurants by micro-electrolysis process;微电解法处理餐饮业含油废水
延伸阅读

铝电解电流效率铝电解电流效率current efficiency of aluminium electrolysis !U dianlie dionliu xioolU铝电解电流效率(eurrent effieieney ofa一u-minium eleetrolysis)在铝电解过程中实际产出的铝量与理论产出的铝量之比的百分数或小数。铝电解电流效率是铝电解的重要技术经济指标。60kA以下的小型侧插棒自焙阳极铝电解槽的电流效率一般为85%一88%;60一lookA中型侧插和上插棒自焙阳极铝电解槽的电流效率一般为88%~90%;lookA以上的大型预焙阳极铝电解槽的电流效率一般为90%一93%,有的甚至高达95纬。 与铝产t和电耗率的关系铝电解电流效率直接影响铝的产量和电耗率,后两者和铝电解电流效率的关系可用下面两式分别表示。 P=0.3356X几7X10一‘(l)式中尸为铝产量,t;T为平均电流强度,A;r为电流效率,%;t为时间,h。 w一298ox争(2)式中w为吨铝的电耗率,kw·h;V平均为铝电解槽的平均电压,V;y为铝电解电流效率(小数)。从式(2)中看出,当v平均保持不变时,铝电解电流效率与电耗率成反比。 铝电解电流效率总是达不到10。%的,其主要原因是阴极上电解析出的铝又重新溶解或机械地混入电解质中,并被循环着的电解质带到阳极空间或电解质表面被阳极气体中的CO:或空气中的氧所氧化。此外,也可能有其他离子放电和电流空耗。 形响电流效率的因素指影响铝电解电流效率的工艺参数,主要有电解温度、极间距、电解质成分、阴极电流密度,铝水波动和回流也会影响铝电解电流效率。 电解温度铝电解过程熔融电解质的温度.电解温度一般比电解质的初晶温度高15~20K。电解温度升高,电解质粘度减小,铝在电解质中的溶解度和扩散系数增大,都有利于铝向电解质中溶解和向阳极区转移,因而铝的摄失增加。当电解温度超过正常电解温度10K时,铝电解电流效率随之降低1%~2%。电解温度过低,电解质发粘,铝珠与电解质分离困难,又会引起铝电解电流效率下降。 极间距阳极底掌到铝液镜面的距离。铝电解的极间距一般保持在4cm左右。小型铝电解槽的极间距稍大一些,以便于维持铝电解槽的能量平衡;大型铝电解槽则稍小些。增加极间距能提高电流效率。极间距对铝电解电流效率影响如图1。次1:_僻{/}叔80卜/l璐}/}翻1/} 70卜} 60一一-一~一一一—一一川 2 3 4 56 78 极间距/cm 图1极间距与铝电解电流效率的关系 电解质成分指铝电解质中的冰晶石比、氧化铝含量和各种添加剂含量。