International Journal of Theoretical Physics,
Journal Year:
2024,
Volume and Issue:
63(8)
Published: Aug. 3, 2024
Abstract
This
study
examines
the
effects
of
Newtonian
heating
along
with
heat
generation,
and
thermal
radiation
on
magnetohydrodynamic
Casson
fluid
over
a
vertical
plate.
At
boundary,
phenomena
has
been
employed.
The
problem
is
split
into
two
sections
for
this
reason:
momentum
equation
energy
equations.
To
transform
equations
given
model
dimensionless
equations,
some
particular
parameters
are
defined.
In
article,
generalized
Fourier’s
law
recently
proposed
Caputo
Fabrizio
fractional
operator
applied.
corresponding
results
non-dimensional
velocity
can
be
identified
through
application
Laplace
transform.
Moreover,
Tzou’s
algorithm
as
well
Stehfest’s
implemented
to
recognize
inverted
Finally,
graphical
sketch
created
using
Mathcad
15
software
demonstrate
numerous
physical
characteristics.
It
reported
that
drop
rising
Prandtl
number
values,
whereas
fluid’s
seen
rise
increasing
Grashof
values.
Additionally,
current
research
shown
flow
temperature
increase
values
parameter.
Numerical Heat Transfer Part A Applications,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 22
Published: May 24, 2024
In
this
study,
we
delve
into
the
magnetohydrodynamic
heat
and
mass
transfer
flow
of
a
Casson
nanofluid
over
specifically
chosen
linear
nonlinear
stretching
surfaces
embedded
in
porous
medium
to
understand
their
distinct
effects
on
fluid
behavior.
By
focusing
influences
Brownian
motion,
thermophoresis,
thermal
radiation,
chemical
reactions,
transformed
partial
differential
equations
ordinary
equations,
leveraging
Runge-Kutta
method
Shooting
Techniques
for
numerical
solutions
momentum,
temperature,
concentration
profiles
under
predetermined
boundary
conditions.
Our
results,
depicted
both
graphical
tabular
forms,
shed
light
how
various
parameters,
including
characteristics,
magnetic
fields,
buoyancy
ratio,
mixed
convection
effects,
influence
dynamics.
A
notable
finding
is
that
an
increase
motion
parameter
intensifies
velocity
temperature
profiles,
but
reduces
its
profile,
unveiling
complex
interactions
within
This
investigation
underscores
importance
mimicking
practical
industrial
scenarios,
thereby
providing
insights
are
crucial
optimizing
processes
such
as
coating,
cooling
electronic
devices,
manufacturing
thin
plastic
films,
where
precise
control
essential.
International Journal of Theoretical Physics,
Journal Year:
2024,
Volume and Issue:
63(8)
Published: Aug. 3, 2024
Abstract
This
study
examines
the
effects
of
Newtonian
heating
along
with
heat
generation,
and
thermal
radiation
on
magnetohydrodynamic
Casson
fluid
over
a
vertical
plate.
At
boundary,
phenomena
has
been
employed.
The
problem
is
split
into
two
sections
for
this
reason:
momentum
equation
energy
equations.
To
transform
equations
given
model
dimensionless
equations,
some
particular
parameters
are
defined.
In
article,
generalized
Fourier’s
law
recently
proposed
Caputo
Fabrizio
fractional
operator
applied.
corresponding
results
non-dimensional
velocity
can
be
identified
through
application
Laplace
transform.
Moreover,
Tzou’s
algorithm
as
well
Stehfest’s
implemented
to
recognize
inverted
Finally,
graphical
sketch
created
using
Mathcad
15
software
demonstrate
numerous
physical
characteristics.
It
reported
that
drop
rising
Prandtl
number
values,
whereas
fluid’s
seen
rise
increasing
Grashof
values.
Additionally,
current
research
shown
flow
temperature
increase
values
parameter.
