1)oxygen concentration cell氧浓差电池
1.2O9 ceramics were investigated by means of ac impedance spectroscopy, oxygen concentration cell and oxygen pump (electrochemical oxygen permeation) at 600~1000 ℃ in various at- mospher.结果表明,氧浓差电池电动势的实测值与理论值吻合得很好,氧离子迁移数为1,表明该陶瓷样品在该温度下氧气气氛中为一纯氧离子导体;氧泵(氧的电化学透过)实验结果进一步证实了该样品在氧气气氛中为一纯氧离子导体;在氧分压p(O2)=10-5~105Pa的高氧分压气氛中,电导率与氧分压变化基本无关,表明在该氧分压范围内样品为纯离子导体,这与氧浓差电池电动势测定结果相吻合;在低氧分压为10-5~10-15Pa范围内,总电导率随氧分压降低而稍有升高,表明在该氧分压范围样品为氧离子与电子的混合导体;在600~1000℃下氧离子电导率>10-2S?cm-1,显著高于母体La2Mo2O9的氧离子电导率,1000℃时的氧离子电导率为0。
2.In the presence of SO_2, the EMF of the oxygen concentration cell increases, but the relation between EMF and ox.还研究了氧化锆氧浓差电池的电动势受SO_2影响的情况,有SO_2存在时,氧浓差电池的电动势增大,但电动势与氧分压的关系不再符合Nernst公式。
3.The ion conduction properties of the ceramic sample have been studied by impedance spectra,oxygen concentration cell,oxygen pump(electrochemical oxygen permeation) techniques in the temperature range of 600~1000 ℃.采用交流阻抗谱、氧浓差电池、氧泵等电化学方法系统地研究了该陶瓷样品在600~1000℃下的离子导电特性。
2)differential aeration cell corrosion氧浓差电池腐蚀
3)concentration cell浓差电池
英文短句/例句
1.Study on the Liquid Junction Potential Calculating Methods of Concentration Cell关于浓差电池中液接电势计算方法的研究
2.The concentration difference cell method has been used widely to determine O in the molten metals.浓差电池法已广泛地用于测定液态金属中氧。
3.Salt Concentration Difference Macrocell Corrosion of X70 Steel in Yellow Pebble SoilX70钢在卵石黄泥土中的盐浓差宏电池腐蚀
4.Quick Measurement of Alkali Concentration in Electrolyte of Al/AgO Battery快速测定铝/氧化银电池电解液中碱浓度的方法
5.Indutrial Interfence of the Standard Cell in a Dc Potentiometer System直流电位差计中标准电池受到的干扰
6.The Effect of Temperature and Methanol Concentration on the Performance of a Direct Methanol Fuel Cell;温度和浓度对直接甲醇燃料电池性能的影响
7.Methanol Concentration Control Strategies for Direct Methanol Fuel Cells直接甲醇燃料电池的甲醇浓度控制方法
8.Preparation of dispersed electrode and EMF of dispersion cell分散电极的制备及其分散差电池的电动势
9.The Uncertainty in the Measurement of Electric Potential of Battery by Planar Electric Potential Difference Meter;板式电位差计测量电池电动势的不确定度评定
10.We can only measure the difference between the potentials of two half cells when they are linked to form an electrochemical cell.当两个半电池连接形成一个化学电池时,我们仅能测定两个半电池之间电位的差值。
11.electric accumulator (storage batteries)蓄电池(二次电池)
12.Electricity Generation Using High Concentration Terephthalic Acid Solution by Microbial Fuel Cell用高浓度对苯二甲酸溶液产电的微生物燃料电池
13.Dynamic Analysis of Lead Poisoning and Density in an Accumulator Plant during 21 Years某蓄电池厂二十一年铅浓度与铅中毒的动态分析
14.In general, there is a measurable difference in potential between the two electrodes whether the cell is passing a current or not.通常,无论电池有无电流流过,两电极之间均具有可测量的电势差。
15.Dielectric Model of Concentration Polarization in Pressure-driven Membrane Process压力驱动膜过程中浓差极化的介电模型
16.Bundle Adjustment Applied in Photogrammetric Survey of Solar Panel光束法平差应用于太阳能电池翼的摄影测量
17.Improvement on the experiment of measuring the emf and internal resistance of the dry cell with potentiometer用板式电势差计测量电池的电动势和内阻实验的改进
18.enriched uranium swimming pool reactor浓缩铀水池式反应堆
相关短句/例句
differential aeration cell corrosion氧浓差电池腐蚀
3)concentration cell浓差电池
4)concentration cell oxygen sensor氧浓差电池型氧传感器
5)zirconia oxygen concentration cell氧化锆氧浓差电池
6)steam concentration cell水浓差电池
延伸阅读
盐浓差电池腐蚀分子式:CAS号:性质:同一金属的不同部位所接触的介质的盐浓度不同,形成盐浓差电池而导致的腐蚀。通常,电池中与较稀溶液接触的部分,因其电极电位较负,成为电池的阳极遭到腐蚀。而与较浓溶液接触部分,由于其电极电位校正,成为电池的阴极,溶液中的金属离子可在此析出。
