If the total of solar, wind, and ba

If the total of solar, wind, and battery energies still cannot meet the demand,
the energy shortage will be supplied by an auxiliary energy source,
whose unit cost, herein, is considered $0.5 per kW h electricity. In
this study, the location of the hybrid system is assumed in such a
place where the unit cost of the auxiliary energy is more expensive
than the electricity produced by the hybrid system. Therefore, the
cost of extra energy here is decided such that it is three times as
much of the average unit cost of the electricity produced by the hybrid
system. Otherwise, if the unit cost of the auxiliary energy was
less than that of the electricity produced by the hybrid system, the
shortage could be supplied from the auxiliary energy source all the
time without the need for such a hybrid system [5]. As seen in Eq.
(6), the auxiliary energy cost is also a part of the total hybrid system
cost. Cs, Cw, CB, Csh and CT are the unit cost of photovoltaic, wind energy
generator, battery, shortage electricity, and total hybrid energy
system, respectively. BC denotes the battery capacity. Ei is the total
amount of the electricity energy shortage because of not meeting
the demand during an hour i. Cs are $5.8/Wp (mono-crystal silicon,
rated output of 75W at 1000 W/m2), $5.5/Wp (multi-crystal silicon,
rated output of 75W at 1000 W/m2) whereas Cw is US $3/W (rated
output of 5000Wat 10 m/s), and CB is $180/kW h (200 Ah 12 V lead
acid battery) [14]. Csh is $0.5 per kW h as explained above, and n is
the simulation time period, 175,200 h. In this study, the inflation
rate and time value of money are not considered.
CT ¼ Cs  as þ Cw  aw þ CB  BC þX
n
i¼1
Csh  Ei ð6Þ
In addition, a total of US $500 battery charger cost, and 5% installation,
maintenance and engineering cost of the initial hardware is
also added into the total system cost for an assumed 20-yearlifetime.