The effects of Ni/Co ratios on A2B7-type La0.7Mg0.3 (Ni1-xCox)3.5 (0≤x≤0.5) alloys were investigated. The results showed that the discharge capacity of the alloys first increased from 245 to 392 mAh·g-1, then...The effects of Ni/Co ratios on A2B7-type La0.7Mg0.3 (Ni1-xCox)3.5 (0≤x≤0.5) alloys were investigated. The results showed that the discharge capacity of the alloys first increased from 245 to 392 mAh·g-1, then decreased to 316 mAh·g-1, corresponding to x=0, 0.2 and 0.5, respectively. While the electrochemical impedance spectra indicated that the reaction resistance had the opposite tendency. When x is equal to 0.2, the reaction resistance has the lowest value. The electrochemical P-C-T results are consistent with the discharge ones of the alloys. When x is equal to 0.2, the dehydriding capacity is 1.34wt.%.展开更多
组装40Ah氢镍电池,研究该空间储能电源充放电性能.结果表明,在环境温度0~10℃之间电池放电容量最高(达50A·h),放电过程电池温度升高10℃,过放电后,电池电压降至-0.2V左右,电池温度逐升,过充电时,电池电压先升后降,温度激升;该电池...组装40Ah氢镍电池,研究该空间储能电源充放电性能.结果表明,在环境温度0~10℃之间电池放电容量最高(达50A·h),放电过程电池温度升高10℃,过放电后,电池电压降至-0.2V左右,电池温度逐升,过充电时,电池电压先升后降,温度激升;该电池以57%DOD(depth of discharge)充放电,经循环2350次,放电电压仍可稳定于1.2V,电池电性能无减.展开更多
文摘The effects of Ni/Co ratios on A2B7-type La0.7Mg0.3 (Ni1-xCox)3.5 (0≤x≤0.5) alloys were investigated. The results showed that the discharge capacity of the alloys first increased from 245 to 392 mAh·g-1, then decreased to 316 mAh·g-1, corresponding to x=0, 0.2 and 0.5, respectively. While the electrochemical impedance spectra indicated that the reaction resistance had the opposite tendency. When x is equal to 0.2, the reaction resistance has the lowest value. The electrochemical P-C-T results are consistent with the discharge ones of the alloys. When x is equal to 0.2, the dehydriding capacity is 1.34wt.%.
文摘组装40Ah氢镍电池,研究该空间储能电源充放电性能.结果表明,在环境温度0~10℃之间电池放电容量最高(达50A·h),放电过程电池温度升高10℃,过放电后,电池电压降至-0.2V左右,电池温度逐升,过充电时,电池电压先升后降,温度激升;该电池以57%DOD(depth of discharge)充放电,经循环2350次,放电电压仍可稳定于1.2V,电池电性能无减.