Deleted Journal,
Journal Year:
2024,
Volume and Issue:
6(7)
Published: July 9, 2024
Abstract
This
review
article
explores
the
critical
role
of
efficient
energy
storage
solutions
in
off-grid
renewable
systems
and
discussed
inherent
variability
intermittency
sources
like
solar
wind.
The
significance
battery
technologies
within
landscape,
emphasizing
importance
financial
considerations.
highlighted
necessity
integrating
to
balance
supply
demand
while
maintaining
grid
system
stability.
thoroughly
explored
characteristics
applications
lead-acid
lithium
batteries.
It
drew
distinctions
emphasized
their
safety
application
advantages.
comparative
covered
key
factors,
including
cycle
life,
power
density,
efficiency,
cost
Additionally,
future
trends,
emerging
technologies,
research
directions.
findings
revealed
that
each
technology
offers
unique
advantages,
presenting
a
challenge
selecting
preferred
option
for
diverse
applications.
Furthermore,
Total
Cost
Ownership
(TCO)
batteries,
considering
factors
beyond
initial
investment,
with
specific
emphasis
on
economic
viability.
comprehensive
approach
provided
valuable
tool
making
informed
decisions
regarding
adoption
pursuit
sustainable
future.
World Electric Vehicle Journal,
Journal Year:
2024,
Volume and Issue:
15(10), P. 440 - 440
Published: Sept. 28, 2024
The
worldwide
transition
to
electric
vehicles
(EVs)
is
gaining
momentum,
propelled
by
the
imperative
reduce
carbon
emissions
and
foster
sustainable
transportation.
In
Malaysia,
government
facilitating
this
transformation
through
targeted
initiatives
aimed
at
promoting
use
of
developing
required
infrastructure.
This
paper
investigates
crucial
role
artificial
intelligence
(AI)
in
intelligent
vehicle
(EV)
charging
infrastructure,
specifically
focusing
on
context
Malaysia.
examines
current
infrastructure
highlights
advancements
led
(AI),
references
both
local
international
case
studies.
Fluctuations
Total
Industry
Volume
(TIV)
Production
(TIP)
reflect
changes
market
demand
production
capabilities,
with
notable
peaks
March
2023
2024.
research
reveals
that
AI
technologies,
such
as
machine
learning
predictive
analytics,
can
enhance
efficiency,
improve
user
experience,
support
grid
stability.
A
mathematical
model
for
an
AI-based
smart
system
was
developed,
implemented
achieved
30%
energy
savings
a
20.38%
reduction
costs
compared
traditional
methods.
These
findings
underscore
system’s
cost
efficiency.
addition,
we
outline
potential
advantages
challenges
associated
incorporating
into
Malaysia’s
Furthermore,
offer
recommendations
researchers,
industry
stakeholders,
regulators.
Malaysia
uptake
make
positive
impact
environment
leveraging
its
(EVCS).
Energies,
Journal Year:
2025,
Volume and Issue:
18(7), P. 1618 - 1618
Published: March 24, 2025
Traditional
centralized
energy
grids
struggle
to
meet
urban
areas’
increasingly
complex
demands,
necessitating
the
development
of
more
sustainable
and
resilient
solutions.
Smart
microgrids
offer
a
decentralized
approach
that
enhances
efficiency,
facilitates
integration
renewable
sources,
improves
resilience.
This
study
follows
systematic
review
approach,
analyzing
literature
published
in
peer-reviewed
journals,
conference
proceedings,
industry
reports
between
2011
2025.
The
research
draws
from
academic
publications
institutions
alongside
regulatory
reports,
examining
actual
smart
microgrid
deployments
San
Diego,
Barcelona,
Seoul.
Additionally,
this
article
provides
real-world
case
studies
New
York
London,
showcasing
successful
unsuccessful
deployments.
Brooklyn
Microgrid
demonstrates
peer-to-peer
trading,
while
London
faces
regulations
funding
challenges
its
systems.
paper
also
explores
economic
policy
frameworks
such
as
public–private
partnerships
(PPPs),
localized
markets,
standardized
models
enable
adoption
at
scale.
While
PPPs
provide
financial
infrastructural
support
for
deployment,
they
introduce
stakeholder
alignment
compliance
complexities.
Countries
like
Germany
India
have
successfully
used
development,
leveraging
low-interest
loans,
government
incentives,
mechanisms
encourage
innovation
technologies.
In
addition,
examines
new
trends
utilization
AI
quantum
computing
optimize
energy,
climate
design
before
outlining
future
agenda
focused
on
cybersecurity,
decarbonization,
inclusion
technology.
Contributions
include
modular
scalable
framework,
innovative
hybrid
storage
systems,
performance-based
model
suited
environment.
These
contributions
help
fill
gap
what
is
possible
today
needed
systems
create
foundation
cities
next
century.
Applied Sciences,
Journal Year:
2024,
Volume and Issue:
14(20), P. 9531 - 9531
Published: Oct. 18, 2024
This
article
presents
a
3D
model
of
yellow
hydrogen
generation
system
that
uses
the
electricity
produced
by
photovoltaic
carport.
The
models
all
key
components
were
collected,
and
their
characteristics
described.
Based
on
design
carport,
amount
energy
monthly
was
determined.
These
quantities
then
applied
to
determine
production
low-emission
hydrogen.
In
order
increase
produced,
usage
stationary
storage
facility
proposed.
Metalog
family
probability
distributions
adopted
develop
strategic
for
production.
economy
company
small
amounts
can
be
based
such
model.
modeling
calculations
show
it
is
possible
compact
using
rapid
prototyping
tools,
including
carport
with
an
electrolyzer
placed
in
container
facility.
effective
solution
climate
transition
companies
low
demand.
analytical
part,
distribution
employed
6.3
kWp
systems
located
two
European
countries:
Poland
Italy.
Calculating
producing
specific
countries
answer
frequently
asked
question:
which
will
from
most
profitable?
As
result
calculations,
analyzed
year
2023
Italy,
answers
obtained
regarding
Many
Italy
are
taking
part
competition
create
banks.
Only
those
offer
at
lowest
prices
receive
EU
funding.
Energies,
Journal Year:
2024,
Volume and Issue:
17(22), P. 5772 - 5772
Published: Nov. 19, 2024
This
paper
presents
an
advanced
AI-based
optimization
framework
for
Electric
Vehicle
(EV)
smart
charging
systems,
focusing
on
efficient
energy
distribution
to
meet
dynamic
user
demand.
The
study
leverages
machine
learning
models
such
as
Random
Forest,
Support
Vector
Regression
(SVR),
Gradient
Boosting
Regressor,
XGBoost,
LightGBM,
and
Long
Short-Term
Memory
(LSTM)
forecast
demand
optimize
allocation.
Among
the
models,
XGBoost
demonstrated
superior
predictive
performance,
achieving
lowest
Mean
Absolute
Error
(MAE)
Root
Square
(RMSE),
making
it
most
effective
real-time
prediction
in
scenarios.
introduces
proportional
priority-based
allocation
strategies
distribute
available
effectively,
with
a
focus
minimizing
shortfalls
balancing
supply
Results
from
model
reduced
error
by
15%
compared
other
significantly
improving
station’s
ability
efficiently.
proposed
AI
enhances
station
operations,
supports
grid
stability,
promotes
sustainability
context
of
increasing
EV
adoption.
Frontiers in Energy Research,
Journal Year:
2025,
Volume and Issue:
12
Published: Jan. 27, 2025
The
global
energy
landscape
is
currently
facing
an
unprecedented
crisis.
To
address
these
difficulties,
it
vital
to
create
efficient
and
reliable
storage
converting
technologies.
This
review
discusses
the
two
important
technologies;
Water
Splitting
Li-ion
batteries
for
storage.
Lithium-ion
battery
revolutionised
convenient
devices
electric
motors
with
their
higher
energy-density,
prolonged
efficiency,
decreasing
costs.
Concurrently,
splitting
offers
a
pathway
hydrogen
generation
clean
fuel
high
density,
through
electrolysis
process.
In
this
analysis,
we
will
explore
at
most
recent
breakthroughs,
as
well
latest
materials
catalysts,
boosting
productivity
economic
viability
of
water
splitting.
Electrode
materials,
electrolytes,
architectures
that
enhance
performance
safety
are
discussed.
integration
technologies
within
renewable
systems,
highlighting
complementary
roles
in
achieving
carbon
neutrality
also
addressed
review.
We
underscore
critical
importance
lithium-ion
sustainable
landscape,
comprehensive
analysis
current
research
future
directions.
E3S Web of Conferences,
Journal Year:
2025,
Volume and Issue:
619, P. 01002 - 01002
Published: Jan. 1, 2025
Electricity
is
a
necessity,
and
batteries
are
common
way
to
store
use
energy.
Different
types
of
such
as
lithium-ion
used
in
devices
laptops
power
banks.
However,
when
the
battery
management
system
fails,
whole
pack
often
discarded,
contributing
waste
problems.
This
paper
proposes
solution
reuse
these
discarded
for
products
like
emergency
lights
banks
while
following
safety
standards.
practice
developed
countries
but
less
understood
developing
nations
India.
approach
can
help
address
electricity
shortage
Indian
households
without
having
worry
about
access
grid
electricity.
Energies,
Journal Year:
2024,
Volume and Issue:
17(16), P. 3953 - 3953
Published: Aug. 9, 2024
The
potential
of
renewable
energy
sources
to
lower
greenhouse
gas
emissions
and
lessen
our
reliance
on
fossil
fuels
has
accelerated
their
integration
globally,
especially
that
solar
photovoltaic
(PV)
systems.
Malaysia
shown
great
progress
in
the
adoption
systems
thanks
its
plentiful
resources.
On
other
hand,
storage
(ESSs)
are
becoming
more
necessary
order
guarantee
grid
stability
fully
realize
benefits
PV
This
study
attempts
assess
current
condition
installations
with
an
emphasis
economic
feasibility,
regulatory
compliance,
technological
capabilities,
compatibility
various
technologies.
Malaysian
systems’
readiness
integrate
using
second-life
electric
vehicle
batteries
(SLEVBs)
is
examined
this
article.
Integrating
SLEVBs
residential
ESSs
shows
viability,
a
15-year
payback
25%
return
investment
(ROI).
Therefore,
for
every
1
MW
installed
capacity,
ESS
it
estimated
reduce
approximately
3504
metric
tons
CO2
annually
Malaysia.
homeowner
from
large
electricity
bill
savings,
net
metering
revenue,
incentives
or
financing
alternatives
make
project
financially
attractive
despite
extended
time.
Energy
solutions
needed
improve
stability,
usage,
power
generation
as
increases.
Reusing
retired
EV
stationary
could
solve
environmental
issues.
examines
frameworks,
viability
combining
Batteries,
Journal Year:
2024,
Volume and Issue:
10(12), P. 452 - 452
Published: Dec. 20, 2024
While
lithium-ion
batteries
(LIBs)
have
pushed
the
progression
of
electric
vehicles
(EVs)
as
a
viable
commercial
option,
they
introduce
their
own
set
issues
regarding
sustainable
development.
This
paper
investigates
how
using
end-of-life
LIBs
in
stationary
applications
can
bring
us
closer
to
meeting
development
goals
(SDGs)
highlighted
by
United
Nations.
We
focus
on
this
practice
support
three
these
goals,
namely
Goal
7:
Affordable
and
Clean
Energy,
12:
Responsible
Consumption
Production,
13:
Climate
Action.
present
literature
review
that
details
aging
mechanisms
LIBs,
battery
degradation,
state
charge,
health,
depth
discharge,
remaining
useful
life,
management
systems.
Then,
we
thoroughly
examine
environmental
economic
benefits
second-life
EV
align
with
SDGs.
Our
summarizes
most
relevant
research
aging,
giving
foundation
for
further
allowing
effective
legislation
be
written
around
EVs.
Additionally,
our
examination
motivates
initiatives
practices,
helping
both
corporations
legislators
orient
ideals
towards
