Applied Sciences,
Год журнала:
2024,
Номер
14(21), С. 9782 - 9782
Опубликована: Окт. 25, 2024
This
paper
addresses
the
challenge
of
integrating
multiple
energy
sources
into
a
single-domain
microgrid,
commonly
found
in
urban
buildings,
while
also
providing
platform
for
management.
A
Lyapunov
stability
analysis
simple
boost
converter
was
used
as
basis
designing
dual
control
loop
grid.
The
versatility
developed
structure
allows
incorporation
an
arbitrary
number
hence
achieving
scalability.
Next,
microgrid
separated
exogenous
and
actuator
energy.
yielded
description
system
that
quantified
condition
independent
decision
made
by
would-be
management
system.
This,
turns,
liberates
process
optimized
from
concerns.
acquired
theoretical
findings
were
then
translated
to
simulation
model,
where
components
grid
simulated
under
typical
scenario
operation.
Once
phase
concluded,
prototype
designed
constructed
emulate
results.
exhibited
promising
performance,
matching
predictions
reasonable
degree.
Eng—Advances in Engineering,
Год журнала:
2025,
Номер
6(3), С. 53 - 53
Опубликована: Март 16, 2025
Given
the
significant
increase
in
electricity
consumption,
especially
industrial
and
commercial
categories,
exploring
new
energy
sources
developing
innovative
technologies
are
essential.
The
fourth
revolution
(Industry
4.0)
digital
transformation
not
just
buzzwords;
they
offer
real
opportunities
for
sustainability,
using
such
as
cloud
computing,
artificial
intelligence,
Internet
of
Things
(IoT).
In
this
context,
study
focuses
on
improving
efficiency
smart
spaces
within
context
Industry
4.0
by
utilizing
SmartParcels
framework.
This
framework
creates
a
detailed
cost-effective
plan
equipping
specific
areas
communities,
commonly
referred
to
parcels.
By
adapting
framework,
we
propose
an
integrated
model
planning
implementing
IoT
applications
that
optimizes
service
utilization
while
adhering
operational
deployment
cost
constraints.
considers
multiple
layers,
including
sensing,
communication,
computation,
application,
adopts
optimization
approach
meet
needs
related
deployment.
simulated
environments,
it
demonstrated
scalability
economic
viability,
achieving
high
utility
ensuring
broad
geographic
coverage
with
minimal
redundancy.
Furthermore,
use
heuristics
device
reuse
geophysical
mapping
selection
promotes
cost-effectiveness
highlighting
framework’s
potential
large-scale
diverse
contexts.
Energies,
Год журнала:
2025,
Номер
18(4), С. 794 - 794
Опубликована: Фев. 8, 2025
An
integrated
micro-
and
nano-grid
with
net-zero
renewable
energy
is
a
sophisticated
system
framework
aimed
at
attaining
optimal
efficiency
sustainability.
This
survey
paper
examines
several
contemporary
research
works
in
this
domain.
document
summarizes
the
latest
papers
selected
for
analysis
to
comprehend
current
state-of-the-art,
integration
process,
methodology,
gaps.
The
objective
of
review
identify
existing
trends
ongoing
transformations
At
conclusion
study,
emerging
technologies
smart
grid
are
offered,
emphasizing
Transactive
Control,
Blockchain
Technology,
Quantum
Cryptography,
based
on
Microgrids
nano-grids
localized
systems
capable
functioning
alone
or
tandem
larger
power
grids,
offering
resilience
adaptability.
By
incorporating
sources
like
solar,
wind,
storage
devices,
these
networks
can
produce
regulate
locally,
guaranteeing
that
generated
meets
surpasses
used.
incorporation
intelligent
technology
control
facilitates
optimized
distribution,
real-time
monitoring,
load
balancing,
advancing
use.
strategy
not
only
bolsters
security
but
also
markedly
decreases
carbon
emissions,
rendering
it
an
essential
element
shift
towards
sustainable
resilient
future.
worldwide
implementation
interconnected
utilizing
signifies
pivotal
transition
These
function
independently
conjunction
conventional
advanced
technology.
Integrating
resources
enables
optimize
production,
consumption
detailed
level,
ensuring
communities
companies
globally
attain
usage.
method
diminishes
greenhouse
gas
emissions
reliance
fossil
fuels
improves
stability
various
places.
technologies,
when
implemented
globally,
provide
scalable
answer
issues
access,
environmental
sustainability,
climate
change
mitigation,
facilitating
cleaner
more
equal
landscape
worldwide.
Energy
harvesting
wireless
sensor
networks
(EH-WSNs)
appear
as
the
fundamental
backbone
of
research
that
attempts
to
expand
lifespan
and
efficiency
positioned
in
resource-constrained
environments.
This
review
paper
provides
an
in-depth
examination
latest
developments
this
area,
highlighting
important
components
comprising
routing
protocols,
energy
management
plans,
cognitive
radio
applications,
physical
layer
security
(PLS),
EH
approaches.
Across
a
well-ordered
investigation
these
features,
article
clarifies
notable
technology,
highlights
recent
barriers,
inquires
avenues
for
future
revolution.
starts
by
furnishing
detailed
analysis
different
methodologies,
incorporating
solar,
thermal,
kinetic,
frequency
(RF)
energy,
their
respective
efficacy
non-identical
operational
circumstances.
It
also
inspects
state-of-the-art
techniques
aimed
at
optimizing
consumption
storage
guarantee
network
operability.
Moreover,
integration
into
EH-WSNs
is
acutely
assessed,
its
capacity
improve
spectrum
tackle
associated
technological
problems.
The
present
work
investigates
ground-breaking
methodologies
PLS
uses
energy-harvesting
measures
data
security.
In
article,
are
explored
with
respect
classical
encryption
discussed
from
points
view
well.The
assessment
furthers
criticizes
traditional
protocols
significance
well
balance
has
long
been
sought
between
space.
closes
importance
continuous
existing
challenges
leverage
newly
available
means
highlighted
document.
order
adequately
serve
increasingly
changing
requirements
EH-WSNs,
will
should
be
geared
towards
AI
some
advanced
solutions.
discusses
novel
interdisciplinary
advancements
better
performance,
security,
sustainability
WSNs.
Solar Energy and Sustainable Development,
Год журнала:
2025,
Номер
14(1), С. 199 - 236
Опубликована: Март 4, 2025
The
integration
of
renewable
energy
systems
(RES)
into
microgrids
faces
challenges
from
technical,
economic,
and
socio-environmental
perspectives.
Despite
their
potential
to
address
access
climate
change
challenges,
RES-based
face
significant
barriers,
including
technical
complexities,
economic
constraints,
socio-cultural
resistance,
regulatory
inadequacies,
environmental
concerns.
Some
the
issues,
like
intermittency
lack
compatibility
with
other
sources,
are
managed
by
management
(EMS)
integrated
battery
systems.
These
barriers
include
high
capital
investment
unpredictable
revenue
which
addressable
through
chosen
microgrid
architecture,
flexible
payment
structures,
tariffs.
Community
opposition
local
knowledge
overcome
employing
mitigation
measures
that
pertain
partaking
in
planning
processes
developing
training
programs.
gaps
addressed
use
standardized
policy
as
well
streamlined
permitting
procedures,
while
issues
application
life
cycle
assessment
(LCA)-based
solutions
environmentally
sustainable
materials.
Furthermore,
paper
addresses
more
recent
developments,
artificial
intelligence
(AI),
peer-to-peer
(P2P)
trading,
an
emphasis
on
improvement
prospects.
Finally,
implications
presented,
stressing
need
for
systemic
observed
tendencies.
This
systematically
reviews
multifaceted
integrating
RES
microgrids.
It
presents
innovative
solutions,
AI-driven
management,
modular
designs,
frameworks
enhance
efficiency,
reliability,
sustainability
a
scalable
transition.
review
provides
diverse
view
future
growth
several
insights
stakeholders
related
development
technology
making
transition
sustainable.
Electronics,
Год журнала:
2025,
Номер
14(6), С. 1159 - 1159
Опубликована: Март 15, 2025
The
global
energy
landscape
is
witnessing
a
transformational
shift
brought
about
by
the
adoption
of
renewable
technologies
along
with
power
system
modernisation.
Distributed
generation
(DG),
smart
grids
(SGs),
microgrids
(MGs),
and
advanced
storage
systems
(AESSs)
are
key
enablers
sustainable
resilient
future.
This
review
deepens
analysis
fulminating
change
in
systems,
detailing
growth
wind
solar
integration,
next-generation
high-voltage
direct
current
(HVDC)
transmission
systems.
Moreover,
we
address
important
aspects
such
as
monitoring,
protection,
control,
dynamic
modelling
distribution
metering
infrastructure
(AMI)
development.
Emphasis
laid
on
involvement
artificial
intelligence
(AI)
techniques
optimised
grid
operation,
voltage
stability,
integration
lifetime
resources
islanding
hosting
capacities.
paper
reviews
advancements
their
applications,
enabling
identification
opportunities
challenges
to
be
addressed
toward
achieving
modern,
intelligent,
efficient
infrastructure.
It
wraps
up
perspective
future
research
paths
well
discussion
potential
hybrid
models
that
integrate
AI
machine
learning
(ML)
distributed
(DESs)
improve
grid’s
resilience
sustainability.
Energies,
Год журнала:
2025,
Номер
18(6), С. 1523 - 1523
Опубликована: Март 19, 2025
The
transformation
of
energy
markets
is
at
a
crossroads
in
the
search
for
how
they
must
evolve
to
become
ecologically
friendly
systems
and
meet
growing
demand.
Currently,
methodologies
based
on
bibliographic
data
analysis
are
supported
by
information
communication
technologies
have
necessary.
More
sophisticated
processes
being
used
systems,
including
new
digitalization
models,
particularly
driven
artificial
intelligence
(AI)
technology.
In
present
review,
342
documents
indexed
Scopus
been
identified
that
promote
synergies
between
AI
transition
(ET),
considering
time
range
from
1990
2024.
methodology
includes
an
evaluation
keywords
related
areas
ET.
analyses
extend
review
authorship,
co-authorship,
AI’s
influence
system
subareas.
integration
resources,
supply
demand,
which
renewable
sources
play
leading
role
end-customer
level,
now
conceived
as
both
producer
consumer,
intensively
studied.
results
has
experienced
notable
growth
last
five
years
will
undoubtedly
future
achieving
decarbonization
goals.
Among
applications
it
enable
be
design
up
execution
start-up
power
plants
with
control
optimization.
This
study
aims
baseline
allows
researchers,
legislators,
government
decision-makers
compare
their
benefits,
ambitions,
strategies,
novel
formulating
policies
field.
developments
scope
sector
were
explored
relation
domain
parts
chain.
While
these
involve
complex
analysis,
techniques
provide
powerful
solutions
designing
managing
high
penetration.
represents
fundamental
shift
market
design,
enabling
more
efficient
sustainable
transitions.
Future
lines
research
could
focus
demand
forecasting,
dynamic
adjustments
distribution
different
generation
sources,
storage,
usage
This
paper
proposes
a
new
energy
management
framework
for
the
optimum
scheduling
of
distributed
generation
resources
within
smart
distribution
system
that
contains
multiple
interconnected
microgrids
under
normal
and
abnormal
operating
conditions.
First,
systematic
is
established
by
defining
functions
various
units
throughout
multi-microgrid
system.
In
suggested
two-step
approach,
each
microgrid
schedules
its
own
based
on
developed
model,
while
in
second
step,
operator
makes
decision
power
transfers
among
allocates
remaining
unserved
loads
from
first
step.
Due
to
inherent
variability
renewable
resources,
an
extreme
learning
machine
(ELM)
model
applied
order
forecast
solar
irradiation
wind
power.
The
significant
contributions
work
include
(1)
approach
uncertainty
modeling
sources
consumer
loads,
using
ELM
probabilistic
fluctuations
renewables
demand;
(2)
coalition
strategy
formation
local
global
trading
with
objective
cost
minimization
profitability
improvement;
(3)
incorporation
vehicle-to-grid
(V2G)
systems
better
electric
vehicle
charging
contribution
stability
due
uncertainties.
Besides,
proposed
has
been
validated
test
practical
scenarios.
demonstrates
considerable
enhancements
efficiency,
resilience,
cost-effectiveness
upon
networks
