Modern Physics Letters B,
Journal Year:
2025,
Volume and Issue:
unknown
Published: March 29, 2025
Numerically,
the
effect
of
melting
heat
transfer
on
magnetohydrodynamics
(MHD)
tangent
hyperbolic
nanofluid
(Thnf)
flow
across
a
porous
wedge
is
evaluated.
Electronic
devices
generate
lot
while
running,
so
Thnf
commonly
used
to
reduce
its
temperature.
has
ability
more
effectively,
thus
minimizing
risk
high
temperature
and
component
disruptions.
The
impact
source/sink,
thermal
radiation,
homogeneous/heterogeneous
chemical
reactions
also
observed
in
fluid
flow.
modeled
equations
are
reformulated
into
non-dimensional
form
ordinary
differential
(ODEs),
which
further
numerically
solved
through
nonlinear
dynamics
(ND)-solve
approach.
For
validity
results,
numerical
outcomes
relatively
related
published
studies,
reveal
that
proposed
model
results
accurate
consistent.
Furthermore,
it
can
be
determined
from
graphical
velocity
drops
with
rising
permeability
parameter
whereas
enhances
positive
variation
power
law
index.
increasing
influence
angle
parameters
augments
energy
distribution
rate.
intensifying
heterogeneous
homogeneous
reaction
decreases
concentration
profile.
AIP Advances,
Journal Year:
2024,
Volume and Issue:
14(7)
Published: July 1, 2024
The
combination
of
AA7075
and
Ti6Al4V
aluminum
alloys
provides
an
effective
balance
endurance,
corrosion
resistance,
lightness.
Some
potential
applications
include
aviation
components,
marine
structures
with
anti-corrosion
characteristics,
surgical
instruments,
athletic
apparel.
Therefore,
the
hybrid
nanofluid
(Hnf)
consists
(AA7075-Ti6Al4V),
water
(50%),
ethylene
glycol
(EG-50%)
in
current
analysis.
Hnf
flow
subject
to
heat
radiation
Lorentz
force
is
studied
through
coaxial
cylinders.
In
addition,
has
been
observed
under
impacts
homogeneous-heterogeneous
(HH)
chemical
reaction
exponential
source/sink.
modeled
equations
(continuity,
momentum,
HH,
equations)
are
renovated
into
non-dimensional
form
similarity
approach,
which
further
numerically
computed
by
employing
ND-solve
technique
coupling
shooting
method.
It
can
be
noticed
from
graphical
results
that
rate
drops
rising
effect
porosity
magnetic
field
parameters.
addition
AA7075-Ti6Al4V
nanoparticles
(NPs)
also
reduces
fluid
temperature
velocity
profile.
Furthermore,
concentration
distribution
diminishes
flourishing
HH
Modern Physics Letters B,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Nov. 27, 2024
Understanding
and
optimizing
heat
transfer
processes
in
complex
fluid
systems
is
the
driving
force
behind
studying
magnetohydrodynamic
(MHD)
flow
of
[Formula:
see
text]–[Formula:
text]
nanofluid
across
a
radiative
moving
wedge,
taking
into
account
impacts
viscous
dissipation
Joule
heating.
Nanofluids,
such
as
text],
increase
transmission
thermal
efficiency.
However,
complicated
challenges
caused
by
characteristics
heating
need
thorough
investigation.
This
study
examines
MHD
hybrid
via
permeable
wedge
using
joule
heating,
mass
suction,
dissipation,
variable
viscosity,
radiation,
conductivity,
Prandtl
number.
We
use
similarity
transformation
to
solve
ordinary
differential
equations
that
follow
from
governing
partial
equations.
then
check
results
for
correctness
dependability.
To
ensure
reliability
validity
outcomes,
source
parameters
are
crucial
validation
process.
The
consequence
changing
these
on
properties
studied
both
scenario
without
with
radiation
methodically
analyzing
percentage
or
reduction.
process
also
includes
comparison
computed
values,
rate
skin
friction
factor,
established
theoretical
predictions.
examination
guarantees
numerical
solution,
executed
bvp4c
technique
MATLAB,
corresponds
anticipated
physical
behavior
system
being
studied.
In
addition,
findings
exist
graphical
tabular
forms,
which
allows
clear
succinct
illustration
how
different
limitations
affect
characteristics.
Advances in Mechanical Engineering,
Journal Year:
2024,
Volume and Issue:
16(9)
Published: Sept. 1, 2024
The
study
focuses
on
a
vertical
Riga
surface-induced
mixed
convective,
unsteady
stagnation
point
flow
of
Casson
fluid.
This
exhibits
nonlinearity
due
to
thermal
radiation,
chemical
processes,
Brownian
motion,
thermophoresis,
Maxwell
slip
velocity,
and
Smoluchowski
temperature
conditions.
study’s
goal
is
improve
efficiency.
By
using
suitable
similarity
variables,
the
partial
differential
equations
are
transformed
into
ordinary
equations.
Subsequently,
these
resolved
bvp4c
function
in
MATLAB.
numerical
findings
for
concentration,
shear
stress,
Nusselt
number,
Sherwood
distribution
shown
graphically.
When
values
parameter
increase,
velocity
profile
was
also
increased
while
concentration
profiles
decreased.
unsteadiness
increase
followed
by
rise
skin
friction
decrease
number
number.
Profiles
friction,
were
raised
with
modified
Hartmann
Increasing
motion
result
profile,
increases.
On
other
hand,
as
thermophoresis
decrease.
will
aid
improvement
understanding
fluid
dynamics
nanotechnology
and,
eventually,
creation
more
effective
sustainable
engineering-based
solutions.
we
compared
our
results
those
studies
literature,
discovered
that
they
quite
consistent.
Modern Physics Letters B,
Journal Year:
2024,
Volume and Issue:
unknown
Published: May 21, 2024
This
work
integrates
the
Boussinesq
approximation
and
magnetohydrodynamic
effects
to
investigate
dynamics
of
incompressible
triple
diffusive
fluid
flow
along
a
linearly
stretched
surface.
Novel
insights
are
revealed
by
contrasting
instances
with
opposing
helpful
flows.
The
partial
differential
equations
symmetrically
reduced
using
Lie-group
transformations,
which
make
Runge–Kutta
shooting
technique
easier
solve.
concentration
buoyancy
ratio,
magnetic
parameter,
Lewis
number
on
temperature,
velocity,
profiles
explained
through
graphical
displays.
Our
results
show
that
in
both
situations,
velocity
distribution
is
decelerated
salt
distributions
similarly
affected
ratio
factors.
Additionally,
higher
associated
lower
mass
heat
transfer
rates
assisting
fluid.
