Extending the Energy Storage Lifetime: A Hybrid Power-Sharing Method
Allbwn ymchwil: Pennod mewn Llyfr/Adroddiad/Trafodion Cynhadledd › Cyfraniad i Gynhadledd › adolygiad gan gymheiriaid
StandardStandard
2022 4th Global Power, Energy and Communication Conference (GPECOM). IEEE, 2022. t. 334-339.
Allbwn ymchwil: Pennod mewn Llyfr/Adroddiad/Trafodion Cynhadledd › Cyfraniad i Gynhadledd › adolygiad gan gymheiriaid
HarvardHarvard
APA
CBE
MLA
VancouverVancouver
Author
RIS
TY - GEN
T1 - Extending the Energy Storage Lifetime: A Hybrid Power-Sharing Method
AU - Salli, Budyanto Jo
AU - Ahmed, Hafiz
PY - 2022/7/11
Y1 - 2022/7/11
N2 - The increased adoption of renewable energy sources is reducing the overall inertial response capability of the modern electric power grid, which translates into larger frequency variation in both transient and pseudo-steady-state operation. Energy storage system (ESS) has the potential to play a significant role in regulating the frequency of more renewable electric power grid. This service is commonly known as frequency response or enhanced frequency response (EFR). Lithium-ion (Li-ion) battery is a popular choice as an ESS to provide EFR. However, EFR is very dynamic and the battery may have to provide high and fast response. This may accelerate the aging process of the battery. To overcome this issue, hybrid ESS (HESS) comprised of Li-ion battery and supercapacitor (SC) have been proposed in the literature. HESS typically works through power-sharing method (PSM). This work deals with the design of power sharing controllers able to enable the provision of EFR services from HESS. Keeping the battery lifetime in mind, proposed controllers employ a hybrid PSM by combining both proportional integral (PI) control and Fuzzy logic to maintain the battery state of charge (SOC) as close to the reference as possible while providing EFR. Results show that the lifetime of the Li-ion battery can be significantly extended by using the proposed controllers. However, this depends on the capacity of the SC that is used to support the Li-ion battery. Numerous simulation results are provided to demonstrate the suitability of the proposed controllers.
AB - The increased adoption of renewable energy sources is reducing the overall inertial response capability of the modern electric power grid, which translates into larger frequency variation in both transient and pseudo-steady-state operation. Energy storage system (ESS) has the potential to play a significant role in regulating the frequency of more renewable electric power grid. This service is commonly known as frequency response or enhanced frequency response (EFR). Lithium-ion (Li-ion) battery is a popular choice as an ESS to provide EFR. However, EFR is very dynamic and the battery may have to provide high and fast response. This may accelerate the aging process of the battery. To overcome this issue, hybrid ESS (HESS) comprised of Li-ion battery and supercapacitor (SC) have been proposed in the literature. HESS typically works through power-sharing method (PSM). This work deals with the design of power sharing controllers able to enable the provision of EFR services from HESS. Keeping the battery lifetime in mind, proposed controllers employ a hybrid PSM by combining both proportional integral (PI) control and Fuzzy logic to maintain the battery state of charge (SOC) as close to the reference as possible while providing EFR. Results show that the lifetime of the Li-ion battery can be significantly extended by using the proposed controllers. However, this depends on the capacity of the SC that is used to support the Li-ion battery. Numerous simulation results are provided to demonstrate the suitability of the proposed controllers.
KW - Battery Lifetime
KW - Hybrid Energy Storage System
KW - Li- ion Battery
KW - Power Sharing Method
KW - Supercapacitor
U2 - 10.1109/GPECOM55404.2022.9815604
DO - 10.1109/GPECOM55404.2022.9815604
M3 - Conference contribution
SP - 334
EP - 339
BT - 2022 4th Global Power, Energy and Communication Conference (GPECOM)
PB - IEEE
ER -