从改变空气电极的摆放方式的角度研究了改善锌空气电池放电性能的方法。
From the laying style of the gas electrode point of view, the method on how to improve the zinc-air batteries discharge performance was researched.
以锌空气电池气体扩散电极为研究对象,采用分层添加催化剂的方式研究了改变催化层位置对气体扩散电极放电性能的影响。
Take gas diffusion electrode of zinc-air battery for example and add catalyst by layers, we studied the effect of changing catalyst layer location on the performance of gas diffusion electrode.
将气相生长碳纤维(VGCF)加入到锌空气电池空气电极催化层中,通过热压成型制备三相气体扩散电极。
Vapor grown carbon fiber (VGCF) was mixed in the catalyst layer of the air electrode for zinc-air battery, prepared by hot-pressing method.
本文给出R20糊式电池测量实例。这实例表明锌电极极化对放电后期电池电压突降的影响是重要的。
The results of measurements on paste type R20 battery showed that Zn electrode polarization played an important role on the sharp drop of cell voltage near the end of the discharge.
本文对锌空气电池进行了以下研究:空气电极的制作工艺优化、扣式电池的装配和圆柱型电池设计与装配。
Research of zinc-air battery in this thesis includes: optimum process of air electrode preparing, assembly of button cell, design and assembly of cylinder cell.
测试了低汞锌粉的析氢速度和各种合金锌电极的析氢电位,用交流阻抗法来测量电池的内阻。
The velocity and potential of release hydrogen on different zinc alloy were measured, the resistance of battery was measured by alternate impedance method.
本文提出了测量电池放电电压曲线的同时测量二氧化锰电极电位,锌电极电位和电池内阻变化的新技术。
A new technique had been developed for measuring discharge curves of dry cells as well as the electrode potential of MnO2 and Zn electrode potential and internal resistance simultaneously.
本文提出了测量电池放电电压曲线的同时测量二氧化锰电极电位,锌电极电位和电池内阻变化的新技术。
A new technique had been developed for measuring discharge curves of dry cells as well as the electrode potential of MnO2 and Zn electrode potential and internal resistance simultaneously.
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