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:
55, P. 104095 - 104095
Published: Feb. 16, 2024
Combining
different-shaped
nanoparticles
enhances
the
mechanism
of
heat
transfer.
Nanoparticles
can
be
spherical,
cubic,
rod,
tube,
helical,
triangular,
hexagonal,
oval,
or
prismatic,
and
they
are
frequently
combined
with
base
liquid.
Biology
industry
two
academic
fields
that
significantly
impacted
by
nanotechnology.
The
use
hybrid
to
enhance
transport
in
a
working
fluid
has
piqued
curiosity
numerous
experts.
Ternary
nanofluids
used
transfer
applications
because
have
higher
thermal
conductivity
than
ordinary
fluid,
especially
as
exchangers.
In
contemporary
times,
amalgamation
liquids
assumed
paramount
significance
diverse
domains
including
healthcare,
production,
naval
academies,
aerosol
particle
processing,
instrument
design,
so
on.
non-Fourier
flux
magnetic
impact
three-dimensional
flow
characteristics
using
linear
Roseland
approximation.
Furthermore,
ternary
solid
variety
densities
forms
were
included.
primary
goal
research
is
rectangular
closed
domain
stretching
surface
Magnetic
effect,
radiation
analyze
velocity
rate
different
cases
like
Case-1:
AA7072+SWCNT+MWCNT
PEG−water
Case-2
Fe3O4+Diamond+TiO2
considered
along
nanofluid.
ology:
By
transforming
model's
governing
PDEs
into
nonlinear
ODEs.
ODE45
solver
MATLAB
was
utilized
construct
graphical
representations
numerical
solution
findings.
It
investigated
how
well
temperature
parameters
function
when
changed.
analysis
also
done
on
simulation
findings
for
friction
transmission
values.
And
case-2
case-1
PEG−water.
A
collection
statistical
mathematical
techniques
problem
modelling
known
response
methodology,
RSM.
To
guarantee
gets
close
desired
maximum
minimum
value,
factorial
variable
settings
optimised
processes
included
Residual
R2
Case-1
92.65%,
91.90%
will
represent
accuracy
model.
Case Studies in Thermal Engineering,
Journal Year:
2024,
Volume and Issue:
61, P. 105077 - 105077
Published: Sept. 1, 2024
The
present
evaluation
focused
on
heat
transfer
and
magnetic
flux
along
the
moving
non-conducting
wedge
shape
with
thermal
conductivity
surface
effects.
A
suitable
well-known
similarity
transformation
for
integration
is
used
coupled
non-linear
partial
differential
equations
stream
formulations.
Keller
Box
technique
utilized
to
integrate
final
non-similar
numerically.
discretized
algebraic
are
displayed
graphically
numerically
using
MATLAB
software.
physical
characteristics
like
temperature,
field,
velocity
profiles,
skin
friction,
intensity
investigated
various
factors.
influence
of
relevant
ξ,
Prandtl
number
Pr,
parameter
β,
variable
viscosity
ε,
Biot
Bi
interpreted
It
noted
that
graph
effects
declined
at
lower
value
enhanced
obtained
higher
number.
fluid
temperature
highest
slip
minimum
but
large
conductivity.
maximum
parameter.
