Numerical Heat Transfer Part A Applications,
Journal Year:
2023,
Volume and Issue:
unknown, P. 1 - 25
Published: July 10, 2023
In
this
study,
we
consider
a
steady-state
viscous,laminar
Carreau
ternary-hybrid
nanofluid
flow
over
stretching
sheet
with
first-order
slip
and
Ohmic
dissipation.Further,
the
effects
of
suction/injection,
oblique
Lorentz
force,
temperature
jump
boundary
condition.
We
investigate
here
how
to
transport
ternary
hybrid
nano-fluid
while
minimizing
entropy
it
generates.
analyze
in
article
molybdenum
disulfide
(MoS2),
silver
(Ag),
multi-wall
carbon
nanotubes
(MWCNT).
Carboxymethyl
cellulose
(CMC-water)
is
observed
fluid
choice.
Several
industries
could
benefit
from
research,
including
those
dealing
equations
model
are
converted
dimensionless
form
by
appropriate
similarity
transformations.
Using
shooting
strategy
Runge-Kutta-Fehlberg
Secant
methods
velocity
fields
obtained.
The
physical
quantities
such
as
rate,
temperature,
skin
friction,
Nusselt
number,
minimization,
Bejan
number
presented
graphically
analyzed.
our
found
that
an
increase
Weissenberg
decrease
field.
also
noticed
significant
effect
Brinkmann
which
has
deleterious
on
entropy-minimization
Bejan-number
profiles.
Hybrid Advances,
Journal Year:
2024,
Volume and Issue:
6, P. 100192 - 100192
Published: April 22, 2024
Nanofluids
(NFs)
incorporation
has
emerged
as
a
pivotal
advancement
in
the
realm
of
technology.
With
technology,
new
segments
NFs
are
introduced
recently.
Compared
to
conventional
fluids,
both
and
Hybrid
nanofluids
(HNFs)
offer
significantly
enhanced
heat
transfer
due
presence
nanoparticles
(NPs).
provide
an
initial
boost,
but
HNFs
take
it
step
further
by
combining
different
NPs
for
even
greater
thermal
performance
efficiency.
combination
two
or
more
dispersed
convectional
fluid.
This
compilation
purpose
is
serve
succinct
overview
covering
history,
preparation
techniques,
thermo-physical
properties,
future
directions,
current
status
applications.
Mainly
two-step
one-step
methods
discussed
preparation.
Thermophysical
properties
like
conductivity,
specific
heat,
density
viscosity
distinct
parameter
variation
(temperature,
concentration
etc.)
reviewed.
applications
various
fields
solar
heating
systems,
cooling
exchangers
industrial
processes,
medical
treatments,
oil
recovery
have
been
discussed.
The
aspects
focus
on
refining
compositions,
scalable
production
methods,
eco-friendly
formulations
optimizing
predictive
models
diverse
Physics Reports,
Journal Year:
2023,
Volume and Issue:
1048, P. 1 - 75
Published: Nov. 10, 2023
In
the
past
few
decades,
numerous
heat
conduction
models
extending
beyond
Fourier's
have
been
developed
to
account
for
large
gradients,
fast
phenomena,
wave
propagation,
and
heterogeneous
material
structures
typical
of
biological
systems,
superlattices,
thermal
metamaterials.
Navigating
through
these
has
become
challenging
due
their
varying
thermodynamic
backgrounds
potential
compatibility
issues.
Furthermore,
recent
discoveries
in
field
non-Fourier
complicated
interpretation
utilization
specific
equations,
especially
when
designing
materials
new
generation
The
situation
is
further
compounded
by
existence
modeling
strategies
literature,
each
offering
different
interpretations
even
same
equation.
This
complexity
makes
it
increasingly
difficult
gain
a
comprehensive
understanding
this
research
field.
Therefore,
review
aims
facilitate
navigation
advanced
equations
Fourier
discussing
properties
practical
applications
context
experiments.
We
begin
with
simplest
fundamental
principles,
progressing
toward
more
complex,
coupled
such
as
ballistic
conduction.
do
not
delve
into
often
intricate
technical
details
framework
or
aim
compare
approach
from
methodological
perspective.
Instead,
we
focus
on
reviewing
primarily
Rational
Extended
Thermodynamics,
Irreversible
Non-Equilibrium
Thermodynamics
Internal
Variables
frameworks.
Additionally,
discuss
relevant
kinetic
theory,
fractional
derivatives,
thermomass,
phase
lag
approaches.
provide
background
information
highlight
origins,
any
limitations
they
may
have,
corresponding
stability
conditions,
if
applicable.
quite
segmented,
paper
also
seeks
establish
common
foundation,
promoting
mutual
fundamentals
model
phenomena
which
can
be
applied.
Hybrid Advances,
Journal Year:
2024,
Volume and Issue:
6, P. 100226 - 100226
Published: June 15, 2024
The
study
of
hybrid
nanofluid
flow
bounded
by
double-revolving
disks
is
crucial
due
to
its
significant
applications
in
enhancing
heat
transfer
various
industrial
processes,
including
cooling
systems,
lubrication
technologies,
and
energy
storage
systems.
This
manuscript
presents
an
entropy
generation
analysis
the
magnetohydrodynamic
Darcy-Forchheimer
a
non-Newtonian
second-grade
between
with
variable
thermal
conductivity.
combines
titanium
dioxide
(TiO2)
cobalt
ferrite
(CoFe2O4)
nanoparticles
base
fluid
engine
oil.
Appropriate
similarity
transformations
convert
dimensional
equations
governing
phenomena
into
non-dimensional
form.
resulting
non-dimensionalized
system
then
solved
using
homotopy
method
(HAM),
semi-analytical
technique.
results
are
validated
comparing
them
previously
published
work
for
specific
case
present
analysis,
they
found
be
very
good
agreement.
A
comprehensive
parametric
conducted
understand
behavior
physical
parameters
involved
study.
It
was
that
there
enhanced
rate
at
both
when
Reynolds
number
nanoparticle
concentration
higher.
also
Bejan
declined
increasing
Brinkman
number.
