Journal of Industrial and Production Engineering,
Год журнала:
2024,
Номер
unknown, С. 1 - 20
Опубликована: Авг. 9, 2024
This
study
proposes
a
hierarchical
game
approach
for
grid-forming
energy
storage
to
participate
in
the
operational
optimization
of
integrated
systems.
Few
studies
are
on
systems
with
storage.
The
microgrid
operator
is
upper-level
leader,
and
user
aggregator
lower-level
follower
consider
operation
cost,
power
trading,
demand-side
management,
voltage
supportability.
An
improved
mountaineering
team-based
(IMTBO)
algorithm
proposed
based
chaotic
mapping
dispersive
search
improve
model
effect.
results
showed
that
IMTBO
can
reduce
deviation
by
23.77%
compared
control
case
improves
efficiency
system
distribution
network,
rationally
optimizes
allocation
price
system.
Abstract
Phase
change
materials
(PCMs)
can
absorb,
store,
and
release
substantial
latent
heat
within
a
specific
temperature
range
during
phase
transition
have
gained
huge
attention
due
to
environmental
concerns
energy
crises.
However,
PCMs
significant
downside
in
storage
their
relatively
lower
thermal
conductivity,
leading
inadequate
transfer
(HT)
performance.
The
foremost
aim
of
the
research
is
synthesize
an
eco‐friendly
coconut
shell
biochar
(CSB)
dispersed
with
organic
A46
PCM
44°C
46°C
form
green
nanocomposite.
A
two‐step
approach
adopted
formulate
nanocomposites
different
weight
concentrations
(0.2%
0.8%)
CSB
particles.
developed
nanocomposite's
conductivity
chemical
stability
were
examined
using
properties
analyzer
Fourier
transforms
infrared
spectrometer.
composites
excellent
(0.39
W/m
K)
compared
base
(0.22
K).
Also,
physically
mixed
together;
there
no
additional
functional
groups
formed
pristine
PCM,
prepared
composite.
Furthermore,
numerical
analysis
was
performed
two‐dimensional
modeling
software
ascertain
HT
rate
composites.
These
thermally
energized
show
great
promise
for
management
applications
like
battery
management,
photovoltaic
systems,
desalination
electronic
cooling,
building
applications,
textiles.
