Battery energy storage
systems
(BESS)
are
widely used to smooth
power
fluctuations
and maintain the voltage and
frequency of the power feeder at a desired level.
T
he National Grid Electricity Transmission (NGET), the primary electricity
transmission network operator in the UK, has introduced various frequency response servic
es that are
designed
to provide a
real
-
time response to deviations in the grid frequency.
In this study
,
a
control
algorithm is
developed
which generates a
charge/discharge power output with respect to deviations in
the grid frequency and the requisite
service
specifications. Using
historical
UK electricity prices, a new
balancing
service scheduling approach
has
also been
developed to
maximize
energy
arbitrage
revenue
by layering
different types of balancing services
throughout the day
. Simulation result
s show that the
proposed algorithm delivers both dynamic and non
-
dynamic firm frequency response (FFR) and also enhanced frequency
response (EFR) to
NGET
specifications while
generating arbitrage revenue
as well as service availability payment
s
in the
balancing market. A comparative study is also presented to compare the yearly arbitrage revenue
obtained
from
the work
presented in this
paper and
a
previous
reference study
.
Finall
y, exper
imental results of
a
grid
-
tied
2MW
/1MWh
BESS
have
been used
for verification purposes