Mathematical Methods in the Applied Sciences,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Nov. 19, 2024
This
research
offers
a
comprehensive
investigation
into
the
steady‐state,
three‐dimensional
flow
of
an
incompressible
hybrid
nanofluid
over
bi‐directionally
stretching
exponential
sheet.
A
central
aspect
study
is
behavior
rotating
micropolar
fluids
within
Darcy‐Forchheimer
porous
medium,
enhanced
by
inclusion
electromagnetic
forces.
The
effects
embedding
nanoparticles
and
in
water‐based
fluid
are
explored
to
reveal
their
influence
on
motion
heat
transfer.
thermal
dynamics
scrutinized,
with
particular
emphasis
roles
absorption
viscous
dissipation.
Moreover,
this
incorporates
both
endothermic
exothermic
reactions
radiative
flows,
alongside
impact
Soret
Dufour
diffusion
effects.
discharge
wastewater
critical
issue
environmental
management
industrial
applications,
underscoring
need
for
rigorous
regulation
prevent
water
pollution
ensure
adherence
standards.
addresses
non‐Newtonian
resulting
from
discharge,
incorporating
Arrhenius
activation
energy
analysis.
Furthermore,
microorganisms
studied
under
velocity
slip
conditions
range
convective
boundary
conditions.
Through
application
similarity
transformations,
governing
differential
equations
derived
solved
numerically
using
MATLAB's
bvp4c
solver,
results
depicted
through
detailed
graphical
analysis
illustrate
fluid's
complex
behavior.
transfer
rate
gets
reduced
1.96%
enhancement
Eckert
number.
Case Studies in Thermal Engineering,
Journal Year:
2024,
Volume and Issue:
57, P. 104336 - 104336
Published: April 1, 2024
The
consequence
of
thermal
performance
and
mass
distribution
endothermic/exothermic
chemical
reaction
pollutant
concentration
on
the
nanoliquid
stream
via
cylinder/plate
in
presence
permeable
media
is
explored
present
study.
advancement
efficient
waste
disposal
pollution
prevention
techniques
might
result
from
studies
fluid
flow
dispersion
contaminants
cylinders
plates.
Further,
TiO2
nanoparticle
offers
improved
conductivity,
helps
wide
range
technological
industrial
applications.
governing
partial
differential
equations
(PDEs)
problem
are
modelled
converted
to
ordinary
(ODEs)
utilizing
similarity
variables.
resultant
ODEs
numerically
solved
using
Runge
Kutta
Fehlberg's
fourth-fifth
order
(RKF-45)
scheme.
influence
various
non-dimensional
parameters
velocity,
thermal,
profiles
illustrated
with
a
graphical
representation.
comparison
between
cylinder
plate
geometry
also
displayed
graphs.
novel
outcomes
show
that
augmentation
parameter
reduces
profile
endothermic
case
elevates
exothermic
case.
Elevating
local
external
source
leads
rise
profile.
It
around
10%–12%
Cf,
4%–6%
Nu
8%–12%
Sh
observed
than
plate.
transfer
rate
for
values
solid
fraction
activation
energy.
In
all
modes,
performs
better
geometry.
Case Studies in Thermal Engineering,
Journal Year:
2023,
Volume and Issue:
53, P. 103892 - 103892
Published: Dec. 10, 2023
In
the
growing
need
for
energy
and
heightened
environmental
considerations,
effective
control
optimization
of
thermal
processes
transferring
mass
are
utmost
importance.
Engine
oil
water-based
nanofluids
have
emerged
as
potential
solutions
various
industrial
applications,
from
generation
to
sophisticated
manufacturing.
Because
these
demands,
current
work
aims
explore
significance
its
research
field,
providing
insights
into
crucial
elements
heat
transport
properties
in
presence
hybrid
nanofluids.
This
investigates
impact
an
induced
magnetic
including
nanoparticle
circulation
across
a
stretched
surface
with
endo/exothermic
chemical
reaction
concentration
waste
discharge
effects.
The
acquired
ordinary
differential
equations
(ODEs)
were
solved
using
Runge
Kutta
Fehlberg
45
technique.
findings
show
that
engine
leads
effectiveness
transfer,
while
nanofluid
performs
better
transfer.
While
motor
works
well
endothermic
situation,
nano
liquid
has
noticeable
effect
on
transfer
over
activation
component
exothermic
process.
Further,
exhibit
lower
pollutant
levels
than
when
exposed
local
external
source
parameter.
These
results
provide
essential
guidance
choosing
best
given
engineering
problem,
leading
greater
productivity
advanced
cooling
systems,
manufacturing,
pharmaceuticals,
treatment,
dispersion
control.
AIP Advances,
Journal Year:
2024,
Volume and Issue:
14(6)
Published: June 1, 2024
The
combined
effect
of
wedge
angle
and
melting
energy
transfer
on
the
tangent
hyperbolic
magnetohydrodynamics
nanofluid
flow
across
a
permeable
is
numerically
evaluated.
Electronic
gadgets
produce
an
excessive
amount
heat
while
in
operation,
so
(THNF)
frequently
used
to
cool
them.
THNF
has
potential
dissipate
more
efficiently,
thereby
lowering
possibility
malfunctioning
components.
effects
thermal
radiation
source/sink
are
also
examined
THNF.
been
formulated
form
PDEs,
which
computed
through
MATLAB
solver
BVP4c.
numerical
results
BVP4c
relatively
compared
published
work
for
validity
purposes.
It
detected
that
accurate
reliable.
Furthermore,
from
graphical
results,
it
perceived
rising
impact
Weissenberg
number
accelerates
velocity
profile.
power-law
index
parameter
drops
fluid
temperature,
but
enhances
curve.
variation
boosts
shearing
stress
propagation
rate,
whereas
increment
Wi
declines
both
rate
skin
friction.
NANO,
Journal Year:
2024,
Volume and Issue:
20(01)
Published: June 24, 2024
The
research
of
heat
and
mass
transfer
enhancement
is
influenced
by
several
physical
effects
such
as
thermal
conductivity,
heterogeneous
catalytic
reaction,
source/sink,
radiation
suction/injection,
a
significant
area
study,
particularly
in
the
field
applied
materials
science,
nanotechnology
mechanical
engineering.
main
objective
this
to
analyze
explore
novel
ternary
hybrid
nanofluids
binary
nanofluid
flow
while
considering
influences
control
parameters
mentioned
earlier.
model
developed
for
Hamilton
Crosser
mechanism
fluid
system
subjected
Riga
wedge.
Due
upgraded
transportation,
(THNs)
show
great
potential
addressing
these
difficulties
because
their
properties,
which
include
enhanced
convective
transport
ability
improve
autocatalysis
reactions.
governing
equations
boundary
conditions
are
nondimensionalized
introducing
suitable
similarity
transformations.
Thereafter,
computational
Chebyshev
collocation
spectral
technique
implemented
MATHEMATICA
11.3
environment
used
calculate
numerical
solution.
THNs
demonstrate
an
efficiency
rate
about
2.79%,
with
minimum
3.27%.
It
has
been
revealed
that
generation
solar
features
enhancing
processes.
Case Studies in Thermal Engineering,
Journal Year:
2024,
Volume and Issue:
60, P. 104623 - 104623
Published: June 1, 2024
A
wide
range
of
industrial
applications
where
effective
heat
transport,
fluid
dynamics,
and
material
adaptability
are
vital
can
be
addressed
by
the
deployment
ternary
hybrid
nanofluids
across
an
extensible
cylinder.
This
work
deals
with
entropy
optimized
flow
transport
features
partially
ionized
magnetically
affected
Prandtl
loaded
three
nanomaterials
drifting
over
a
convectively
heated
Three
distinct
()
dispersed
in
order
to
enhance
performance
rate
functional
fluid.
The
ion
Hall
slip
effects,
Joule
heating,
non-uniform
source,
frictional
heating
among
initial
hypotheses
this
computational
analysis.
problem
is
presented
quantitatively
taking
Tiwari-Das
model
basic
equations.
Keller-Box
framework
used
solve
nonlinear
equations
computationally.
findings
reveal
that
enhancement
effects
diminish
rapid
growth
entropy,
while
opposite
trend
emerges
for
Brinkman
magnetic
parameter.
motion
depressed
field
intensity.
thermal
transfer
enhanced
uplifting
first
curvature
parameters.
system's
irreversibility
detracts
number.
higher
parameter
β
results
elevated
shear
stresses
skin
friction.
