International Journal of Advanced Computer Science and Applications,
Год журнала:
2024,
Номер
15(7)
Опубликована: Янв. 1, 2024
Islands
represent
strategic
platforms
for
exploring
and
exploiting
marine
resources.
This
article
presents
a
hybrid
renewable
electric
system
(HRES)
designed
to
power
the
island
communities
of
Djerba
in
Tunisia.
The
integrates
photovoltaic
panels,
wind
turbines,
tidal
hydraulic
systems,
biomass,
batteries,
taking
into
account
available
climatic
land
A
multi-objective
optimization
method
is
proposed
sizing
this
minimize
loss
energy
costs.
Two
algorithms,
MOPSO
(Multi-Objective
Particle
Swarm
Optimization)
SSO
(Social
Spider
have
been
used
solve
problem.
MATLAB
simulations
show
that
offers
better
convergence
coverage
than
SSO.
results
confirm
viability
algorithm
optimal
sizing.
In
addition,
they
enable
an
in-depth
analysis
electrical
production
economic
benefits
associated
with
various
components.
Heliyon,
Год журнала:
2024,
Номер
10(19), С. e37482 - e37482
Опубликована: Сен. 10, 2024
As
global
energy
demand
and
warming
increase,
there
is
a
need
to
transition
sustainable
renewable
sources.
Integrating
different
systems
create
hybrid
system
enhances
the
overall
adoption
deployment
of
resources.
Given
intermittent
nature
solar
wind,
storage
are
combined
with
these
sources,
optimize
quantity
clean
used.
Thus,
various
optimization
strategies
have
been
developed
for
integration
operation
systems.
Existing
studies
either
reviewed
or
systems,
however,
ignored
integrated
This
study
offers
comprehensive
analysis
methods
used
in
(HRES)
(ESS).
We
examined
models
HRES
ESS,
their
objectives,
common
constraints.
Based
on
our
review,
capacity
CO
Scientific Reports,
Год журнала:
2024,
Номер
14(1)
Опубликована: Авг. 29, 2024
The
off-grid
Hybrid
Renewable
Energy
Systems
(HRES)
demonstrate
great
potential
to
be
sustainable
and
economically
feasible
options
meet
the
growing
energy
needs
counter
depletion
of
conventional
sources.
Therefore,
it
is
crucial
optimize
size
HRES
components
assess
system
cost
dependability.
This
paper
presents
optimal
sizing
provide
a
very
cost-effective
efficient
solution
for
supplying
power
rural
region.
study
develops
PV-Wind-Battery-DG
with
an
objective
3E
analysis
which
includes
Energy,
Economic,
Environmental
CO