TY - JOUR
T1 - Calendar aging of a 250 kW/500 kWh Li-ion battery deployed for the grid storage application
AU - Kubiak, Pierre
AU - Cen, Zhaohui
AU - López, Carmen M.
AU - Belharouak, Ilias
N1 - Publisher Copyright:
© 2017 Elsevier B.V.
PY - 2017/12/31
Y1 - 2017/12/31
N2 - The introduction of Li-ion batteries for grid applications has become evidence as the cost per kWh is continuously decreasing. Although the Li-ion battery is a mature technology for automotive applications and portable electronics, its use for stationary applications needs more validation. The Li-ion technology is considered safe enough for grid storage application, but its lifetime is generally evaluated to be around 10 years. Higher market penetration will be achieved if a longer lifespan could be demonstrated. Therefore, aging evaluation of the batteries becomes crucial. In this paper we investigated the effects of aging after a three years' standby field deployment of a 250 kW/500 kWh Li-ion battery integrated with the grid and solar farm under the harsh climate conditions of Qatar. The development of tools for acquisition and analysis of data from the battery management system (BMS) allows the assessment of the battery performance at the battery stack, string and cell levels. The analysis of the residual capacity after aging showed that the stack suffered from a low decrease of capacity, whereas some inconsistencies have been found between the strings. These inconsistencies are caused by misalignment of a small number of cells that underwent self-discharge during standby at high state of charge.
AB - The introduction of Li-ion batteries for grid applications has become evidence as the cost per kWh is continuously decreasing. Although the Li-ion battery is a mature technology for automotive applications and portable electronics, its use for stationary applications needs more validation. The Li-ion technology is considered safe enough for grid storage application, but its lifetime is generally evaluated to be around 10 years. Higher market penetration will be achieved if a longer lifespan could be demonstrated. Therefore, aging evaluation of the batteries becomes crucial. In this paper we investigated the effects of aging after a three years' standby field deployment of a 250 kW/500 kWh Li-ion battery integrated with the grid and solar farm under the harsh climate conditions of Qatar. The development of tools for acquisition and analysis of data from the battery management system (BMS) allows the assessment of the battery performance at the battery stack, string and cell levels. The analysis of the residual capacity after aging showed that the stack suffered from a low decrease of capacity, whereas some inconsistencies have been found between the strings. These inconsistencies are caused by misalignment of a small number of cells that underwent self-discharge during standby at high state of charge.
KW - Calendar aging
KW - Electrochemical energy storage
KW - Grid application
KW - Li-ion batteries
KW - Stationary batteries
UR - http://www.scopus.com/inward/record.url?scp=85031995268&partnerID=8YFLogxK
U2 - 10.1016/j.jpowsour.2017.10.063
DO - 10.1016/j.jpowsour.2017.10.063
M3 - Article
AN - SCOPUS:85031995268
SN - 0378-7753
VL - 372
SP - 16
EP - 23
JO - Journal of Power Sources
JF - Journal of Power Sources
ER -