植物发供电技术的研究进展
谢林翰1, 李万忠1, 张倩倩1(
), 曹高萍2, 邱景义2, 明海2, 封伟3()
), 曹高萍2, 邱景义2, 明海2, 封伟3()
Research advances in plant-power generation technology
Linhan XIE1, Wanzhong LI1, Qianqian ZHANG1(), Gaoping CAO2, Jingyi QIU2, Hai MING2, Wei FENG3()
), Gaoping CAO2, Jingyi QIU2, Hai MING2, Wei FENG3()
图4. 不同植物对铜锌原电池发供电性能的影响;1 Ω负载电阻、锌铜电极个数比为2∶1时电化学电池的(a)负载电压和(b)负载功率随时间的变化;无负载电阻、锌铜电极个数比为1∶1时电化学电池的(c)开路电压和(d)输出功率在第3天随时间的变化. Copyright ? 2020 Springer
Fig. 4. Influence of different plants on power generation performance of copper-zinc primary batteries; evolutions of load voltage (a) and load power (b) with time in electrochemical cell with 1 Ω load resistance and a zinc-copper electrode number ratio of 2∶1; Evolutions of open circuit voltage (c) and output power (d) with time in electrochemical cell no load resistance and a zinc-copper electrode number ratio of 1∶1 on third day. Copyright ? 2020 Springer
