Development of high-performance Na/NiCl/sub 2/ cell

The performance of the Ni/NiCl/sub 2/ positive electrode for the Na/NiCl/sub 2/ battery has been significantly improved by lowering the impedance and increasing the usable capacity through the use of chemical additives and a tailored electrode morphology. The improved electrode has excellent perform...

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Bibliographic Details
Published inIEEE 35th International Power Sources Symposium pp. 343 - 345
Main Authors Redey, L., Prakash, J., Vissers, D.R., Myles, K.M.
Format Conference Proceeding
LanguageEnglish
Published IEEE 1992
Subjects
Battery charge measurement
Current density
Current measurement
Density measurement
Electrodes
Impedance
Nickel
Power measurement
Temperature
Vehicle dynamics
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Summary:The performance of the Ni/NiCl/sub 2/ positive electrode for the Na/NiCl/sub 2/ battery has been significantly improved by lowering the impedance and increasing the usable capacity through the use of chemical additives and a tailored electrode morphology. The improved electrode has excellent performance even below 200 degrees C and can be recharged within one hour. The performance of this new electrode was measured by a conventional galvanostatic method and by a newly developed power dynamic method. These measurements were used to project the performance of 40- to 60-kWh batteries built with this new electrode combined with the already highly developed sodium/ beta "-alumina negative electrode. These calculated results yielded a specific power of 150-400 W/kg and a specific energy of 110-200 Wh/kg for batteries with single-tube and bipolar cell designs. This high performance, along with the high cell voltage, mid-temperature operation, fast recharge capability, and short-circuited failure mode of the electrode couple, makes the Na/NiCl/sub 2/ battery attractive for electric vehicle applications.< >
ISBN:9780780305526
0780305523
DOI:10.1109/IPSS.1992.281986