Case Studies in Thermal Engineering,
Journal Year:
2024,
Volume and Issue:
56, P. 104229 - 104229
Published: March 14, 2024
This
article
exhibits
a
brief
study
of
magneto
ternary
hybrid
nanofluid
flow
with
thermophoretic
particle
deposition
and
porous
medium
based
on
the
extended
version
model,
known
as
Yamada-Ota
Hamilton
Crosser
models.
Thermophoretic
deposition,
which
is
important
in
both
aero-solution
electrical
engineering,
one
most
fundamental
methods
for
transferring
small
particles
across
heat
gradient.
suggested
model's
goal
to
evaluate
how
well
Hamilton-Crosser
Yamada-Ota,
two
trihybrid
models,
perform.
Advanced
transfer
systems,
particular
creation
effective
cooling
heating
technologies,
may
benefit
from
this
research.
Researchers
can
develop
more
efficient
exchangers,
boost
thermal
management
electronic
devices,
increase
energy
efficiency
industrial
processes
by
better
understanding
behave
complicated
systems
under
various
conditions.
By
using
required
similarity
variables,
MATLAB
solver
bvp4c
package
handles
system
ODEs
acquired
leading
PDEs
arrive
at
numerical
solution.
The
relevant
parameters'
effects
fields
have
been
graphically
explained.
results
show
that
when
inter-phase
parameter
value
grows,
profile
rate
decrease
liquid
phase.
With
regard
mass
effectiveness,
model
performs
than
model.
Case Studies in Thermal Engineering,
Journal Year:
2024,
Volume and Issue:
57, P. 104190 - 104190
Published: March 30, 2024
The
current
study
examines
the
effect
of
heat
generation
on
thermal
Marangoni
convective
boundary
layer
flow
dusty
trihybrid
nanofluid
across
a
flat
surface
with
radiation
and
non-linear
mixed
convection.
We
consider,
two
phase
liquid
model
generation.
fluctuation
tension
gradients
leads
to
discovery
It
can
be
used
for
growing
crystals,
drying
silicon
wafers,
stabilising
soap
films,
wielding.
main
objective
this
is
ascertain
mobility.
A
consisting
magnesium
oxide
(Mgo),
titanium
(TiO2),
silver
(Ag)
water
as
base
fluid
used.
This
improve
efficiency
dependability
systems
in
variety
applications
by
helping
optimize
transfer
processes
materials
processing,
electronics
cooling,
creation
cutting-edge
cooling
technologies
energy
systems.
existing
PDEs
are
converted
into
nonlinear
ODEs
via
similarity
variables.
then
solved
numerically
using
shooting
technique
(RKF-45th
approach).
When
convection
parameter
rises,
higher
lead
stronger
induced
flows
more
efficient
inside
liquid.
As
temperature
profiles
dust
phases
drop,
distribution
these
characteristics
becomes
homogeneous.
Case Studies in Thermal Engineering,
Journal Year:
2024,
Volume and Issue:
60, P. 104694 - 104694
Published: June 24, 2024
The
Casson
fluid
flow
over
a
stretching
sheet
is
studied
in
this
work
the
presence
of
porous
media
with
melting
heat
transfer
and
chemical
reaction,
combining
nanoparticles
base
sodium
alginate
().
medium
Darcy
Forchheimer
effect
included
momentum
equation.
Through
effects
melting,
process
described.
In
order
to
explore
features
transmission
absenteeism
LTECs
(local
thermal
equilibrium
conditions),
current
study
employs
mathematical
model
that
has
been
simplified.
For
both
solid
liquid
phases,
LTNE
yields
two
different
fundamental
gradients.
This
proposed
compares
YOM
(Yamada-Ota
model)
XM
(Xue
model),
well-known
trihybrid
nanofluid
models,
terms
performance.
After
applying
proper
transformations,
modulated
non-linear
PDEs
(partial
differential
equations)
are
simplified
ODEs
(ordinary
bvp4c
method
used
solve
them
numerically.
A
graphic
discussion
relevant
factors'
significance
on
pertinent
fields
presented.
It
observed
ternary
hybrid
temperature
velocity
distributions
predominate
at
higher
parameter.
phase's
transport
rate
rises
an
upsurge
interphase
Case Studies in Thermal Engineering,
Journal Year:
2024,
Volume and Issue:
59, P. 104498 - 104498
Published: May 8, 2024
In
this
article,
the
effect
of
nonlinear
heat
source
on
chemical
reactive
flow
magnetized
Boger
fluid
over
a
sheet
with
Marangoni
convection
and
porous
medium
is
explored.
modelling,
local
thermal
non-equilibrium
(LTNE)
conditions
sources
are
taken
into
account.
The
unique
transport
for
both
liquid
solid
phases
provided
by
LTNE
model,
which
based
equations.
As
result,
various
temperature
profiles
used
in
work
phases.
It
essential
streamlining
industrial
procedures,
improving
material
processing
methods,
comprehending
biological
systems
like
blood
medicine
delivery,
determining
environmental
impact
pollutant
dispersion,
increasing
effectiveness
oil
gas
transportation.
This
model
supports
crucial
decision-making
processes
numerous
disciplines
offering
insights
intricate
interplay
between
fluids,
transmission,
reactions.
appropriate
similarity
variables
to
compress
equation
system,
shooting
method
conventional
bvp4c
solver
then
solve
system
numerically.
Optimal
homotopy
approach
achieve
residual
errors.
There
suggested
best
estimates
auxiliary
variables.
Results
show
that
larger
values
solvent
fraction
parameter,
exhibits
an
enhanced
velocity
profile
declining
phase.
concentration
declined
higher
parameter.
Case Studies in Thermal Engineering,
Journal Year:
2024,
Volume and Issue:
59, P. 104546 - 104546
Published: May 18, 2024
The
physical
phenomena
of
Darcy-Forchheimer
flow
trihybrid
nanofluid
over
a
Riga
plate
with
the
influence
electrophoresis
and
thermophoresis
on
particle
deposition
non-uniform
heat
generation
in
porous
medium
is
discussed
this
article.
In
Marangoni
convective
flow,
study
examined
impact
rate
at
which
aerosol
particles
deposited
across
plate.
One
most
basic
processes
for
moving
tiny
temperature
gradient
known
as
deposition,
it
significant
to
both
aero-solution
electrical
engineering.
Trihybrid
containing
Cobalt
iron
oxide
Manganese
Zinc
Molybdenum
disulfides
(
nanoparticles,
based
fluid
water
used.
For
case
Xue
Yamada-Ota
models
have
been
expanded.
objective
envisaged
model
compare
performance
two
renowned
ternary
hybrid
namely
Yamada–Ota.
required
similarity
transformations
are
used
translate
set
governing
equations
into
collection
ODEs.
homotopy
analysis
method
(HAM)
analytically
solve
these
simplified
equations.
embedded
non-dimensional
parameters,
graphic
exploration
velocity,
concentration
thermal
fields
made.
study's
primary
outcomes
that
convection
parameter
increased,
velocity
profile
improved
distributions
lowered.
decreases
increasing
electrophoretic
parameter,
however
opposite
behavior
seen
parameter.
