zinc-air battery

美 [zɪŋk er ˈbætəri]英 [zɪŋk eə(r) ˈbætri]
  • 网络锌空气电池;锌-空气电池;锌空电池
zinc-air batteryzinc-air battery
  1. Research on Continuous Power Generation Device and Control Technology of Zinc-Air Battery

    锌空电池连续发电装置及控制技术研究

  2. The design and combined consistency of the horizontal zinc-air battery

    水平式锌空电池的设计及组合一致性

  3. Study on the hydrogen evolution performance of negative current collector for zinc-air battery

    锌-空气电池负极集流体析氢性能研究

  4. Research on Laying Style of Gas Electrode in Zinc-air Battery

    锌空气电池中空气电极摆放方式的研究

  5. Research on Perovskite Type Catalyst for Zinc-air Battery Air Electrode

    锌空气电池钙钛矿型空气电极催化剂的研究

  6. Study on performance of column shape zinc-air battery

    圆柱形锌空电池的锌电极性能研究

  7. Effect of Air Diffusion Electrode with Different Structures on the Performance of Button Zinc-Air Battery

    空气扩散电极的结构对扣式锌空气电池性能的影响

  8. The application and technical state of zinc-air battery

    锌空气电池的应用和技术现状

  9. Study and preparation of catalytic electrode for zinc-air battery

    锌-空气电池催化电极的制备和研究

  10. Effect of zinc gel binder on zinc-air battery and zinc electrode

    锌膏增稠剂对锌电极及锌-空气电池性能的影响

  11. Effect of the carbon black on the electrical performance of gas diffusion electrode of zinc-air battery

    炭黑对锌空气电池空气扩散电极电性能的影响

  12. Compared with the commercialization zinc-air battery production , the button battery has greater capacity .

    制作的纽扣电池与商品化锌空气电池相比有着更大的容量。

  13. Study on zinc anode of zinc-air battery (ⅰ)

    锌-空气电池阳极材料的研究(Ⅰ)

  14. Zinc electrolysis is the first step of the zinc-air battery cycle system and the key to zinc energy storage .

    锌的电解是锌空气电池循环的首要步骤,也是实现锌储能的关键。

  15. Development of a cylinder zinc-air battery

    实用圆柱形锌空气电池的开发

  16. The experiments showed that the power of zinc-air battery increased with the electrode superficial area which exposed to the air growth .

    实验表明:随着空气电极暴露于空气中的面积的增加,锌空电池的功率逐渐增加,锌空电池放电功率与空气电极暴露面积成非正比的线性关系。

  17. The superiority of the vertical porous gas electrode to the traditional electrode was proved by the zinc-air battery discharge experiment .

    通过锌空气电池实验对比了立式多孔碳电极相对于传统多孔碳电极在放电中的优点。

  18. The performances of the oxygen electrode and zinc electrode were discussed for the zinc-air battery through the polarization curves of electrodes .

    对锌-空气电池,通过电极极化曲线,讨论了氧电极和锌电极的性能。

  19. Zinc-air battery is one of the efficient , clean new environmentally energy , using " dry embed " technology for production zinc-air battery electrode slice .

    锌空电池是高效,清洁的新型环保能源之一,采用“干嵌法”工艺生产锌空电池极片时,对其加热、烘干的温度控制有着很高的要求。

  20. By R6 type battery testing method , this cylinder zinc-air battery can discharge 19 hours . Its anode utilization ratio is 80 % or so .

    同扣式电池一样装入粒状锌粉,放电测试表明锌粉利用率最高达80%左右,按照哈尔滨工程大学硕士学位论文R6型号电池的放电方式测试放电时间为19小时。

  21. The comprehensive performances of lithium ion battery , nickel zinc battery and zinc-air battery were not good as that of VRLA battery and Ni-MH battery .

    锂离子电池、锌镍电池和锌空气电池的综合指标不如阀控式铅蓄电池和MH-Ni电池优良。

  22. And zinc-air battery has advantage of no pollution , high specific energy , low price , sustainable recycling , etc. , which is known as " the 21st century green energy " .

    而锌空电池具有无污染、比能量高、价格低、可循环使用等优点,被称为是面向21世纪的绿色能源。

  23. Research of cylindrical zinc-air battery in this thesis includes : study on the catalyst of air electrode , study on the zinc electrode , design and assembly of cylindrical zinc-air battery .

    本文对圆柱形锌空气电池进行了以下研究:空气电极催化剂的研究、锌电极的研究、圆柱形锌空气电池的设计与装配。

  24. According to structure of alkaline manganese cell , cylinder zinc-air battery is designed . Air electrode is outside , zinc anode whose structure as same as button zinc-air battery in the center .

    实验还根据R6型号的碱性锌锰电池的结构设计出空气电极在外,锌粉居中的圆柱型电池锌空气电池。

  25. We also produce disposable Lithium cell , Li-ion battery , zinc-air battery , nickel-zinc battery ( under development ), battery power management circuit , battery charger , e-bike , power tool , etc.

    此外,公司还生产有一次性锂电池、锂离子电池、锌空气电池、镍锌电池(开发)、电池电源管理器、充电器、电动自行车、电动工具等产品。

  26. In order to improve the performance of zinc electrode , effect of sodium carboxymethyl cellulose ( CMC ) and polyacrylate sodium on electrochemical performance of zinc electrode and discharge performance of zinc-air battery were analyzed by contrast experiments .

    为了改善锌电极及锌-空气电池的性能,通过对比试验分析了羧甲基纤维素钠(CMC)和聚丙烯酸钠(PAAS)对锌电极电化学性能以及锌-空气电池放电性能的影响。

  27. New structure of continuous power generation device of rechargeable zinc-air battery was put forward , in which zinc anode was designed as a reel structure , to ensure that zinc-air battery can generate electricity continuously for a long time .

    该结构采用锌阳极为卷状的设计,保证锌空电池可长时间连续发电。

  28. As a part of zinc air battery , air electrode has become the key factor to the character of zinc-air battery , because of the stagnancy of the zinc electrode which is the anode electrode in the battery .

    空气电极作为锌空气电池中的一部分,在锌电极的研究几乎进入停滞阶段的现在,现已成为决定整个锌空气电池性能的关键。

  29. Achievement within the realm of electric vehicles ( EV ) power battery research in main countries of the world in recent years are summarized . Break-through has been made at lead-acid battery , zinc-air battery and PEM fuel cells .

    概要地介绍了世界主要研究电动汽车的国家在其动力蓄电池领域中近年的研制开发成果,其中铅酸蓄电池、锌-空气蓄电池和聚合物膜燃料电池已取得突破性进展。

  30. Different discharge performance of the same gas electrode in the same zinc-air battery caused by the different electrode laying style was given . The influence to the performance of the battery caused by the laying style of the gas electrode was also analyzed .

    通过对比相同的空气电极在同样的锌空气电池系统中采用不同摆放方式后产生的不同的放电特性,分析了空气电极的摆放方式对电极性能的影响。