Processes,
Год журнала:
2024,
Номер
12(11), С. 2578 - 2578
Опубликована: Ноя. 17, 2024
The
market
share
of
blade
batteries
is
rising
rapidly
due
to
their
high
energy
density,
efficient
space
utilization,
and
low
cost.
Nevertheless,
effective
cooling
solutions
for
are
crucial
ensure
the
safe
operation
electric
vehicles,
especially
in
extreme
high-temperature
environments.
This
paper
numerically
investigates
effects
a
plate
battery
parameters
on
maximum
temperature,
temperature
difference,
water
pressure
drop.
Additionally,
efficiency
these
under
various
demands
analyzed.
numerical
results
show
that
increasing
channel
number
changing
flow
direction
does
not
significantly
improve
performance
plate.
Moreover,
effect
difference
negligible.
Furthermore,
mass
rate
rotational
speed
fan
preferred
when
Tmax
−
Ta
>
6
K,
while
reducing
more
energy-efficient
<
K.
These
expected
offer
theoretical
guidance
data
support
designing
systems
Energies,
Год журнала:
2024,
Номер
17(19), С. 4880 - 4880
Опубликована: Сен. 28, 2024
The
worldwide
population
growth
and
its
increasing
affluence
have
led
to
an
increase
in
global
building
energy
consumption.
Therefore,
developing
sustainable
storage
materials
mitigate
this
problem
has
become
a
high
priority
for
many
researchers.
Organic
phase
change
(PCMs),
such
as
fatty
acids,
been
extensively
studied
thermal
applications
due
their
excellent
performance
absorbing
releasing
within
the
environment
temperature
ranges.
However,
issues
related
conductivity,
stability,
flammability
could
limit
potential
require
addressing.
In
review,
organic
PCMs,
with
special
focus
on
are
discussed.
This
review
covers
recent
studies
PCM
synthesis
from
bio-sources,
methods
incorporation
materials,
enhancing
properties,
challenges,
life
cycle
assessment.
Finally,
future
opportunities
summarized.
ABSTRACT
Phase
change
material
cooling
method
as
a
zero
energy
consumption
system
has
good
prospect
in
battery
thermal
management
systems.
Therefore,
the
response
of
lithium‐ion
presence
phase
was
explored
this
study.
The
subjected
to
high
discharge
conditions
(5
C‐rate)
at
ambient
temperatures
(35°C
and
40°C).
results
showed
that
usage
materials
with
thickness
1
mm
can
reduce
temperature
deliver
better
difference
battery.
Results
also
revealed
for
14.6
Ah
under
5
C
rate,
maximum
from
51.64°C
35°C
55.85°C
40°C
(without
material)
43.04°C
43.81°C,
respectively.
It
concluded
manage
desirable
range
an
extreme
rate
C.
obtained
study
be
used
guidance
design
systems
including
materials.
