Heliyon,
Journal Year:
2024,
Volume and Issue:
10(9), P. e30466 - e30466
Published: May 1, 2024
Integrating
wind
power
with
energy
storage
technologies
is
crucial
for
frequency
regulation
in
modern
systems,
ensuring
the
reliable
and
cost-effective
operation
of
systems
while
promoting
widespread
adoption
renewable
sources.
Power
are
changing
rapidly,
increased
integration
evolving
system
architectures.
These
transformations
bring
forth
challenges
like
low
inertia
unpredictable
behavior
generation
load
components.
As
a
result,
(FR)
becomes
increasingly
important
to
ensure
grid
stability.
Energy
Storage
Systems
(ESS)
their
adaptable
capabilities
offer
valuable
solutions
enhance
adaptability
controllability
especially
within
farms.
This
research
provides
an
updated
analysis
critical
stability
challenges,
examines
state-of-the-art
control
techniques,
investigates
barriers
that
hinder
integration.
Moreover,
it
introduces
emerging
ESS
explores
potential
applications
supporting
Furthermore,
this
paper
offers
suggestions
future
directions
scientists
exploring
utilization
characterized
by
significant
penetration
power.
Engineering Science & Technology Journal,
Journal Year:
2024,
Volume and Issue:
5(3), P. 1086 - 1096
Published: March 28, 2024
This
review
paper
explores
integrating
renewable
energy
into
water
supply
systems
as
a
critical
strategy
for
addressing
global
challenges
such
climate
change,
scarcity,
and
security.
By
comparing
initiatives
in
African
countries
the
United
States,
study
highlights
importance
of
sustainable,
efficient,
resilient
diverse
geographical
socio-economic
contexts.
The
examines
technological,
financial,
policy,
infrastructure
opportunities
that
influence
adoption
sector.
It
delves
sustainability
scalability
energy-powered
initiatives,
assessing
their
environmental,
economic,
social
dimensions.
comparative
analysis
reveals
lessons
learned,
best
practices,
potential
areas
collaboration
between
regions.
Future
directions
are
proposed,
emphasizing
need
international
cooperation,
knowledge
sharing,
innovation
to
enhance
integration
systems.
concludes
by
underscoring
pivotal
role
achieving
sustainable
development
goals,
particularly
ensuring
access
clean
all.
Keywords:
Renewable
Energy,
Water
Supply
Systems,
Sustainable
Development,
Comparative
Review.
ACS Applied Materials & Interfaces,
Journal Year:
2024,
Volume and Issue:
16(3), P. 3334 - 3347
Published: Jan. 9, 2024
By
virtue
of
their
capacity
to
absorb
and
release
energy
during
the
phase
change
process,
materials
(PCMs)
are
ideal
for
personal
thermal
management
(PTM).
The
combination
reduced
graphene
oxide/cellulose
sodium
aerogel
(rGCA)
lauric
acid/myristic
acid
binary
eutectic
gel
(LMG)
creates
a
composite
material
that
possesses
outstanding
photothermal
conversion
capabilities,
electro-thermal
storage
shape-stable
performance.
results
showed
rGCA
had
maximum
adsorption
efficiency
99.7%
with
melting
latent
heat
124.6
J
g–1.
high
absorption
rate
LMG
is
result
capillary
force,
pore
characteristics,
hydrogen
bonding,
π–π
interaction.
Notably,
(rGCG)
exhibited
an
excellent
96.5%
82.3%.
Results
indicate
more
suitable
temperature
regulation
than
single
materials,
making
them
PTM.
It
anticipated
innovative
comfort
solution,
which
provides
shielding,
storage,
self-supporting
wearability,
will
offer
new
possibilities
next
generation
wearable
PTMs.
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(9), P. e30466 - e30466
Published: May 1, 2024
Integrating
wind
power
with
energy
storage
technologies
is
crucial
for
frequency
regulation
in
modern
systems,
ensuring
the
reliable
and
cost-effective
operation
of
systems
while
promoting
widespread
adoption
renewable
sources.
Power
are
changing
rapidly,
increased
integration
evolving
system
architectures.
These
transformations
bring
forth
challenges
like
low
inertia
unpredictable
behavior
generation
load
components.
As
a
result,
(FR)
becomes
increasingly
important
to
ensure
grid
stability.
Energy
Storage
Systems
(ESS)
their
adaptable
capabilities
offer
valuable
solutions
enhance
adaptability
controllability
especially
within
farms.
This
research
provides
an
updated
analysis
critical
stability
challenges,
examines
state-of-the-art
control
techniques,
investigates
barriers
that
hinder
integration.
Moreover,
it
introduces
emerging
ESS
explores
potential
applications
supporting
Furthermore,
this
paper
offers
suggestions
future
directions
scientists
exploring
utilization
characterized
by
significant
penetration
power.
