Batteries Battery 48V 20AH Lithium Battery Pack With BMS And LCD Display
|ITEM||Rated Pamameter||ITEM||Rated Parameter|
|Norminal Voltage||48V||Chemistry material||Li(CoNiMn)O2|
|Charge Voltage||54.6V||Discharge Cut-off Voltage||36.4V|
|Standar Charge Current||3.5A||Dimention||240*98*160mm with led display|
|Fast Charge Current||8A||Weight||5.8kg|
|Continuous Discharge Current||≤30A||Operating Temperature||-20–60℃|
|Pulse Discharge Current||80A||Storage Temperature||0-45℃|
The team looked at the role of LiI on lithium-air battery discharge, using a different approach from most other studies. One set of studies was conducted with the components outside of the battery, which allowed the researchers to zero in on one part of the reaction, while the other study was done in the battery, to help explain the overall process.
They then used ultraviolet and visible-light spectroscopy and other techniques to study the reactions that took place. Both of these processes foster the production of different lithium compound such as LiOH (lithium hydroxide) in the presence of both LiI and water, instead of Li2O2 (lithium peroxide). LiI can enhance water’s reactivity and make it lose protons more easily, which promotes the formation of LiOH in these batteries and interferes with the charging process. These observations show that finding ways to suppress these reactions could make compounds such as LiI work better.