Eng—Advances in Engineering,
Год журнала:
2024,
Номер
5(4), С. 3239 - 3258
Опубликована: Дек. 9, 2024
This
paper
presents
the
development
of
an
Artificial
Intelligence
(AI)-based
integrated
dynamic
hybrid
PV-H2
energy
system
model
together
with
a
reflective
comparative
analysis
its
performance
versus
that
commercially
available
HOMER
software.
In
this
paper,
novel
Particle
Swarm
Optimization
(PSO)
is
developed
by
integrating
PSO
algorithm
precise
to
accurately
simulate
considering
behaviour
individual
components.
The
allows
consideration
while
optimizing
sizing
within
grid-connected
buildings
minimize
levelized
cost
and
maintain
management
across
components
grid
in
feeding
building
load
demands.
was
applied
on
case-study
allow
benchmarking
results
those
from
HOMER.
Benchmarking
showed
model’s
optimal
as
well
corresponding
closely
match
terms
management,
strategy
implemented
maximization
green
supply
building,
thus
aligning
net-zero
transition
target,
one
based
minimizing
regardless
building.
Another
privilege
revealed
more
realistic
quantification
hydrogen
output
electrolyser
because
it
considers
response
varying
PV
input,
also
electricity
fuel
cell
levels
stored
tank.
Electronics,
Год журнала:
2024,
Номер
13(18), С. 3620 - 3620
Опубликована: Сен. 12, 2024
The
increasing
demand
for
reliable
and
sustainable
electricity
has
driven
the
development
of
microgrids
(MGs)
as
a
solution
decentralized
energy
distribution.
This
study
reviews
advancements
in
MG
planning
optimization
renewable
integration,
using
Preferred
Reporting
Items
Systematic
Reviews
Meta-Analyses
methodology
to
analyze
peer-reviewed
articles
from
2013
2024.
key
findings
highlight
integration
emerging
technologies,
like
artificial
intelligence,
Internet
Things,
advanced
storage
systems,
which
enhance
efficiency,
reliability,
resilience.
Advanced
modeling
simulation
techniques,
such
stochastic
genetic
algorithms,
are
crucial
managing
variability.
Lithium-ion
redox
flow
battery
innovations
improve
density,
safety,
recyclability.
Real-time
simulations,
hardware-in-the-loop
testing,
dynamic
power
electronic
converters
boost
operational
efficiency
stability.
AI
machine
learning
optimize
real-time
operations,
enhancing
predictive
analysis
fault
tolerance.
Despite
these
advancements,
challenges
remain,
including
integrating
new
improving
accuracy,
sustainability,
ensuring
system
resilience,
conducting
comprehensive
economic
assessments.
Further
research
innovation
needed
realize
MGs’
potential
global
sustainability
fully.
Energies,
Год журнала:
2024,
Номер
17(15), С. 3814 - 3814
Опубликована: Авг. 2, 2024
The
telecommunication
industry
relies
heavily
on
a
reliable
and
continuous
power
supply.
Traditional
sources
like
diesel
generators
have
long
been
the
backbone
of
telecom
infrastructure.
However,
growing
demand
for
sustainable
eco-friendly
solutions
has
spurred
interest
in
renewable
energy
sources.
Proton
exchange
membrane
(PEM)
fuel
cell-based
systems,
integrated
with
solar
wind
energy,
offer
promising
alternative.
This
review
explores
potential
these
hybrid
systems
stationary
applications,
providing
comprehensive
overview
their
architecture,
management,
storage
solutions.
As
services
grows,
so
does
need
Diesel
are
linked
high
operational
costs,
noise
pollution,
significant
greenhouse
gas
emissions,
prompting
search
more
alternatives.
analyzes
current
state
PEM
cell
examines
architecture
microgrids
incorporating
sources,
discusses
optimization
methods,
challenges,
future
directions
systems.
Critical
findings
recommendations
presented,
highlighting
objectives
constraints
developments.
Leveraging
technologies
can
help
reduce
fossil
reliance,
lower
minimize
environmental
impact,
increase
system
reliability.
Energy Conversion and Economics,
Год журнала:
2024,
Номер
5(4), С. 259 - 279
Опубликована: Авг. 1, 2024
Abstract
Renewable
energy‐based
microgrids
(MGs)
strongly
depend
on
the
implementation
of
energy
storage
technologies
to
optimize
their
functionality.
Traditionally,
electrochemical
batteries
have
been
predominant
means
storage.
However,
technological
advancements
led
recognition
hydrogen
as
a
promising
solution
address
long‐term
requirements
microgrid
systems.
This
study
conducted
comprehensive
literature
review
aimed
at
analysing
and
synthesizing
principal
optimization
control
methodologies
employed
in
hydrogen‐based
within
context
building
infrastructures.
A
comparative
assessment
was
evaluate
merits
disadvantages
different
approaches.
The
techniques
for
management
are
categorized
based
predictability,
deployment
feasibility,
computational
complexity.
In
addition,
proposed
ranking
system
facilitates
an
understanding
its
suitability
diverse
applications.
encompasses
deterministic,
stochastic,
cutting‐edge
methodologies,
such
machine
learning‐based
approaches,
compares
discusses
respective
merits.
key
outcome
this
research
is
classification
various
strategy
MG,
along
with
mechanism
identify
which
will
be
suitable
under
what
conditions.
Finally,
detailed
examination
advantages
strategies
controlling
optimizing
hybrid
systems
emphasis
utilization
provided.
Particle & Particle Systems Characterization,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 20, 2025
Abstract
The
idea
of
grid‐scale
hydrogen
production
by
water
electrolysis
has
been
made
possible
developing
catalyst‐anchored
three‐dimensional
(3D)
foam‐based
electrodes.
Catalytic
performance
in
and
oxygen
evolution
reactions
is
improved
incorporating
catalyst
3D
interlinked
porous
architecture,
which
enhances
electrical
conductivity
speeds
up
the
discharge
gas
bubbles.
detailed
study
on
role‐play
frameworks
energy
generation
explained
this
article.
review
also
focuses
recent
development
utilizing
these
substrates
field
electrochemistry.
Furthermore,
it
imperative
to
enhance
their
compatibility
with
renewable
systems
high‐temperature
for
sustainable
hydrogen.
Therefore,
briefly
explores
innovative
design
self‐supported
framework
electrodes
using
heterostructures
doping
techniques
develop
stable,
durable,
efficient
electrocatalysts.
These
catalysts
aim
provide
near‐zero
overpotential,
high
selectivity,
long‐term
stability
through
electrolysis,
paving
way
commercial‐scale
green
production.
can
emerge
as
a
key
technology
