Abstract
Na/S battery can have the higher energy density and higher power density than that of existing high performance secondary battery. This battery is expected to use for electric load leveling and electric vehicle. Ni/MH battery was developed in advanced countries, but it is one of the advanced technologies which are preserved in their own country. In the study on Na/S battery, properties of B{sup -}alumina electrolyte was investigated. Also the construction technologies of this test cell was established by combining tube type of B{sup -}alumina solid electrolyte with Na-, S- electrode etc. Especially of this cell, charge/discharge performance and open circuit voltage was examined. Mi/MH battery sample were tested with SBT500 system for self-discharge rate at room temp, was measured. It was found that the electrolyte and separator can be optimized to minimize the self-discharge rate. (author). refs., figs., tabs.
Yang, J H;
Seong, J S;
Kim, J D;
Ahn, Y S;
Kim, H S;
Han, S O;
Kim, Y N;
Kwan, K K
[1]
- Korea Institute of Energy Research, Taejon (Korea, Republic of)
Citation Formats
Yang, J H, Seong, J S, Kim, J D, Ahn, Y S, Kim, H S, Han, S O, Kim, Y N, and Kwan, K K.
Basic study on high performance secondary battery for electric load-leveling & electric vehicle.
Korea, Republic of: N. p.,
1993.
Web.
Yang, J H, Seong, J S, Kim, J D, Ahn, Y S, Kim, H S, Han, S O, Kim, Y N, & Kwan, K K.
Basic study on high performance secondary battery for electric load-leveling & electric vehicle.
Korea, Republic of.
Yang, J H, Seong, J S, Kim, J D, Ahn, Y S, Kim, H S, Han, S O, Kim, Y N, and Kwan, K K.
1993.
"Basic study on high performance secondary battery for electric load-leveling & electric vehicle."
Korea, Republic of.
@misc{etde_10115712,
title = {Basic study on high performance secondary battery for electric load-leveling & electric vehicle}
author = {Yang, J H, Seong, J S, Kim, J D, Ahn, Y S, Kim, H S, Han, S O, Kim, Y N, and Kwan, K K}
abstractNote = {Na/S battery can have the higher energy density and higher power density than that of existing high performance secondary battery. This battery is expected to use for electric load leveling and electric vehicle. Ni/MH battery was developed in advanced countries, but it is one of the advanced technologies which are preserved in their own country. In the study on Na/S battery, properties of B{sup -}alumina electrolyte was investigated. Also the construction technologies of this test cell was established by combining tube type of B{sup -}alumina solid electrolyte with Na-, S- electrode etc. Especially of this cell, charge/discharge performance and open circuit voltage was examined. Mi/MH battery sample were tested with SBT500 system for self-discharge rate at room temp, was measured. It was found that the electrolyte and separator can be optimized to minimize the self-discharge rate. (author). refs., figs., tabs.}
place = {Korea, Republic of}
year = {1993}
month = {Dec}
}
title = {Basic study on high performance secondary battery for electric load-leveling & electric vehicle}
author = {Yang, J H, Seong, J S, Kim, J D, Ahn, Y S, Kim, H S, Han, S O, Kim, Y N, and Kwan, K K}
abstractNote = {Na/S battery can have the higher energy density and higher power density than that of existing high performance secondary battery. This battery is expected to use for electric load leveling and electric vehicle. Ni/MH battery was developed in advanced countries, but it is one of the advanced technologies which are preserved in their own country. In the study on Na/S battery, properties of B{sup -}alumina electrolyte was investigated. Also the construction technologies of this test cell was established by combining tube type of B{sup -}alumina solid electrolyte with Na-, S- electrode etc. Especially of this cell, charge/discharge performance and open circuit voltage was examined. Mi/MH battery sample were tested with SBT500 system for self-discharge rate at room temp, was measured. It was found that the electrolyte and separator can be optimized to minimize the self-discharge rate. (author). refs., figs., tabs.}
place = {Korea, Republic of}
year = {1993}
month = {Dec}
}