Proceedings of the Institution of Mechanical Engineers Part E Journal of Process Mechanical Engineering,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 30, 2024
A
theoretical
exploration
was
reported
to
highlight
the
electrically
viscous
conducting
fluid
within
a
coaxial
cylinder.
Both
outer
surface
of
inner
cylinder
and
were
porous,
heated,
cool,
respectively.
The
action
simultaneous
radial
transverse
magnetic
field
velocity
slip
imposed
across
For
appropriate
insight
into
physical
problem,
thermal
Rosseland
diffusion
approximation
used
indicate
radiative
heat
flux
in
energy
equation.
aim
is
investigate
effects
isothermal
isoflux
conditions
on
slip-upshot
transfer
vertical
due
nonlinear
radiation.
steady-state
unsteady
solutions
problem
provided
solved
via
regular
perturbation
implicit
finite
different
domains,
It
noted
that
suction
parameters
reduced
skin
friction
under
both
conditions.
Conversely,
Grashof
number,
radiation,
injection
increased
velocity,
temperature,
friction,
with
more
significant
effect
observed
surfaces
Additionally,
sensitivity
analysis
revealed
radiation
parameter
highly
sensitive
conditions,
followed
by
temperature
difference
parameter.
In
contrast,
shows
extreme
sensitivity,
being
next
most
sensitive.
result
reveals
an
excellent
agreement
between
analytical
numerical
results
at
maximum
time.
Numerical Heat Transfer Part B Fundamentals,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 20
Published: March 22, 2024
This
article
aims
to
investigate
the
electrokinetic
peristaltic
flow
of
Sutterby
nanofluid
through
an
asymmetric
microchannel
with
a
porous
medium
and
Joule
heating
parameter.
The
magnetic
field
is
applied
in
transverse
direction
electric
on
direction.
model
consists
continuity,
momentum,
heat,
potential
equations,
appropriate
boundary
conditions.
Debye-Hückel
linearization
approximation
considered.
Under
long
wavelength
small
Reynolds
number
approximation,
lengthy
equations
were
reduced.
resultant
coupled
are
numerically
solved
by
renowned
NDSolve
coding
using
Mathematica
software.
Entropy
Bejan
also
incorporated
this
study.
velocity,
temperature,
phenomenon
entrapment
analyzed
depth
aid
graphical
representations.
Streamlines
various
waveforms
discussed.
analysis
discovered
that
velocity
fluid
enhanced
for
porosity
parameter
reverse
effects
observed
quantity
International Journal of Modelling and Simulation,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 15
Published: May 20, 2024
In
this
research,
the
flow
of
kerosene
oil
with
ternary
hybrid
nanoparticles
on
a
stretchable
exponential
surface
has
been
investigated.
There
is
also
discussion
about
entropy
analysis
hydromagnetic
radiation
by
surface.
The
nanofluid
(THyNF)
contains
graphene
oxide
(GO),
magnesium
(MgO),
and
zinc
(ZnO)
as
base
fluid.
Using
useful
transformations,
differential
equations
partial
derivatives
(PDEs)
were
transformed
into
ordinary
(ODEs).
Then,
ODEs
solved
using
RK5th
method.
Furthermore,
impacts
parameters
like
parameter
(Rd),
porosity
(λ),
volume
fraction
(φ)
THyNF
Magnetic
field
(M)
shape
factor
(SF)
temperature
(θ(η))
velocity
(f
′η)
profiles
have
Increasing
magnetic
raises
Lorentz
force,
which
produces
resistance
to
fluid
reduces
′η).
profile
rises
increasing
because
reduced
rate
due
allows
transfer
more
heat.
As
nanoparticle
increases,
both
increase.
effects
M,
Rd,
SF
(shape
factor),
λon
generation
(SG)
Bejan
number
(Be)
discussed.
Also,
results
show
that
at
fixed
value
or
parameter,
increase
in
nanoparticles,
−CfxRex12
rises.
At
constant
φ
NuxRex−12
parameter.
Numerical Heat Transfer Part A Applications,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 16
Published: April 10, 2024
The
current
study
investigates
the
influence
of
induced
magnetic
field
and
convective
boundary
condition
on
behavior
a
magnetohydrodynamic
(MHD)
Maxwell
fluid
including
nanoparticles
flowing
through
stretching
sheet.
Furthermore,
analysis
considers
existence
radiation.
Numerical
solutions
to
basic
governing
equations
are
achieved
using
Runge–Kutta–Fehlberg
technique.
impact
various
physical
parameters
concentration,
velocity,
temperature
profiles
is
deployed
graphs.
primary
conclusions
this
that
increasing
Magnetic
parameter
decreases
Induced
while
Deborah
improves
velocity
profile.
Temperature
distribution
growing
due
increased
estimates
Radiation,
Biot
number,
number
values.
When
Lewis
values
raised,
concentration
get
smaller
but
there
an
opposite
scenario
as
Thermophoresis
upsurges.
findings
consistent
with
those
have
been
previously
reported.
phenomenon
flow
by
stretched
surface
finds
several
applications
in
industrial
technological
domains,
copper
wire
production,
polymer
extrusion,
article
manufacturing,
fiber
synthesis.
fields
extremely
prominent
many
areas
science
technology,
electromagnetism,
materials,
resonance
imaging
(MRI).
Multidiscipline Modeling in Materials and Structures,
Journal Year:
2024,
Volume and Issue:
20(5), P. 784 - 795
Published: July 30, 2024
Purpose
The
present
findings
aim
to
investigate
the
thermal
behavior
of
water-based
nanofluid
flow
over
a
rotating
surface,
focusing
on
understanding
effects
different
types
nanoparticles
efficiency,
considering
radiation
and
variable
viscosity
effects.
By
four
distinct
–
silicon
dioxide
titanium
dioxide,
aluminum
oxide
molybdenum
disulfide
study
aims
provide
insights
into
how
nanoparticle
addition
influences
heat
production,
boundary
layer
thickness
overall
performance.
Design/methodology/approach
employs
computational
methods,
utilizing
BVP
mid-rich
algorithm
for
solution
procedure.
approach
allows
detailed
investigation
flows
across
surface
under
varying
conditions.
Findings
concludes
that
adding
in
base
liquid
increases
production
system,
resulting
enhanced
thickness.
comparative
analysis
shows
exhibit
suggesting
careful
selection
can
optimize
transport
management
processes.
Moreover,
there's
noteworthy
uptrend
radial
velocity
profile
concerning
stretching
parameter,
whereas
converse
trend
is
observed
profile.
Originality/value
This
contributes
original
by
comprehensively
investigating
hybrid
surface.
