Influence of State of Charge Level on Frequency Control Reserve Provision by Energy Storage Systems
Abstract
Batteries in transmission grids can provideancillary network services, such as primary frequency
response, voltage control in network nodes or back up
power. The Battery Energy Storage Systems (BESS) is often
the most limiting factor within their more extensive usage
for the frequency control. Because of this it is necessary to
adjust the system charging SoC and the performance of
battery systems so that they fulfil the same requirements as
those ones which are applied in case of conventional
providers of primary frequency control. This article says
more about the possibilities of using and stability of battery
systems and their ability to be a part of the ancillary
services providers.
References
ENTSO-E. (2009). Operation Handbook, Policy 1: Load-
Frequency Control and Performance.
SEPS. (2012). Technické Podmienky Prístupu a Pripojenia,
Pravidlá Prevádzkovania Prenosovej Sústavy.
Angel Molina-Garcia, Francois Bouard, and Daniel S. Kirschen.
(2011). Decentralized demand-side contribution to primary
frequency control. IEEE Transactions on Power Systems, 26, 411-
H.-J. Künisch, K. G. Krämer, and H. Dominik. (1986). Battery
energy storage another option for load-frequency-control and
instantaneous reserve. IEEE Transactions on Energy Conversion,
EC-1(3), 41-46.
Alexandre Oudalov, Daniel Chartouni, and Christian Ohler.
(2007). Optimizing a Battery Energy Storage System for Primary
Frequency Control. IEEE Transactions on Power Systems, 22(3):
-1266, doi: 10.1109/TPWRS.2007.901459.
Pascal Mercier, Rachid Cherkaoui, and Alexandre Oudalov.
(2009). Optimizing a battery energy storage system for frequency
control application in an isolated power system. IEEE
Transactions on Power Systems, 24(3), 1469-1477, doi:
1109/TPWRS.2009.2022997.
Theodor Borsche, Andreas Ulbig, Michael Koller, and Göran
Andersson. (2013). Power and Energy Capacity Requirements of
Storages Providing Frequency Control Reserves. IEEE PES
General Meeting, Vancouver.
Olivier Mégel, Johanna L. Mathieu, and Göran Andersson. (2013).
Maximizing the potential of energy storage to provide fast
frequency control. 4th IEEE PES Innovative Smart Grid
Technologies Europe (ISGT Europe), Copenhagen.
Maciej Swierczynski, Daniel-Ioan Stroe, Ana-Irina Stan, Remus
Teodorescu, Rasmus Laerke, and Philip Carne Kjaer. (2013). Field
Tests Experience from 1. 6MW / 400kWh Li-ion Battery Energy
Storage System providing Primary Frequency Regulation Service.
th IEEE PES Innovative Smart Grid Technologies Europe (ISGT
Europe), Copenhagen.