在微生物燃料电池中,阳极电势会对产电菌的富集和生长产生影响。
The initial anode potential of the microbial fuel cell(MFC) was changed by additional circuit in the anode chamber, and the influence of the initial anode potential on the electricigens was studied.
原电池中具备较低电势的金属是阳极的而且会受到腐蚀。
The metal with a lower potential in the galvanic cell will be anodic and will corrode.
用电极电势、能斯特方程式和超电势等,论述了铝板的阳极氧化机理。
This article discussed anodic oxidation mechanism of aluminium plate by means of electrode potential, Nernst equation, overpotential and so on.
在该模型的基础上,讨论了势垒、阳极结的电势降落和电流的放大因子等电参数的变化。
Based on the model, the variations of the electrical parameters such as the potential barrier, the anode junction voltage drop, and the current amplification factor are studied and discussed.
影响该方法电解效率的主要因素有:氧化物阴极导电性、O2-扩散、阴极电势、阳极材料。
The main influencing factors on electrolysis efficiency of the method were: oxide cathode conductivity, O2- diffusion, cathode potential, anode material.
影响该方法电解效率的主要因素有:氧化物阴极导电性、O2-扩散、阴极电势、阳极材料。
The main influencing factors on electrolysis efficiency of the method were: oxide cathode conductivity, O2- diffusion, cathode potential, anode material.
应用推荐