Physics-informed neural networks for rotating EMHD flow of Jeffrey hybrid nanofluid with arrhenius activation energy and mass convections
Expert Systems with Applications,
Год журнала:
2025,
Номер
unknown, С. 126517 - 126517
Опубликована: Янв. 1, 2025
Язык: Английский
Comprehensive study of Maxwell-Buongiorno models with suction-injection and cubic stratification: Unlocking complex heat and mass transfer mechanisms in nonlinear convection
Abbas Khan,
Muhammad Amer Qureshi,
Hijaz Ahmad
и другие.
Proceedings of the Institution of Mechanical Engineers Part N Journal of Nanomaterials Nanoengineering and Nanosystems,
Год журнала:
2025,
Номер
unknown
Опубликована: Май 2, 2025
Heat
and
mass
transmissions
are
improved
by
cubic
stratification
in
nonlinear
mixed
convection,
which
has
important
applications
the
energy,
electronics,
medical
technology
sectors.
The
advancement
of
cooling
systems
environmental
management
depends
on
nanofluids,
valued
for
their
exceptional
thermal
qualities.
Nanofluids
essential
modern
engineering
because
heat
transmission
characteristics.
To
examine
transfer
a
non-Newtonian
Maxwell
nanofluid
across
vertically
extended
surface,
this
study
uses
Buongiorno
model,
incorporates
Brownian
diffusion
thermophoresis
effects.
Such
configurations
major
polymer
processing,
coating,
biomedical
applications.
Convective
boundary
conditions,
stratification,
effects
suction
injection
velocity
all
considered
inquiry.
Through
parametric
analysis,
source
or
sink
explored,
offering
insights
to
optimize
involving
nanofluid-based
porous
media.
NDSolve
(Built-in)
numerical
approach
is
utilized
resolve
regulating
formulas.
A
visual
representation
provided
influences
different
factors
concentration,
temperature
outline,
fluid
flow.
skin
friction,
local
Nusselt,
Sherwood
numbers
have
been
computed
examined
numerically.
findings
show
that
profile
concentration
both
noticeably
lessened
raising
solutal
value.
In
contrast,
increasing
convection
parameter
raises
profiles.
Additionally,
transport
dynamics
nanoparticles
influenced
substantial
boost
caused
motion
exhibit
strong
agreement
with
earlier
studies
when
compared
those
published
recent
literature.
Язык: Английский
Assessing entropy production in a rotating flow of Jeffrey fluid subjected to frictional heating using two computational methods
Results in Engineering,
Год журнала:
2025,
Номер
unknown, С. 105242 - 105242
Опубликована: Май 1, 2025
Язык: Английский
Mathematical analysis of Jeffrey ferrofluid on stretching surface with the Darcy–Forchheimer model
Nonlinear Engineering,
Год журнала:
2025,
Номер
14(1)
Опубликована: Янв. 1, 2025
Abstract
The
study
examines
the
laminar
two-dimensional
flow
with
heat
and
mass
transfer
of
Jeffrey
fluid
having
thermal
radiation
source–sink
effects
past
a
linearly
inclined
vertical
stretched
sheet
under
Stefan
blowing.
impact
magnetic
dipole
is
also
examined
on
two
different
processes:
prescribed
surface
temperature
(PST)
flux
(PHF).
Furthermore,
Darcy–Forchheimer
model,
mixed
convection,
Buongiorno
slip
conditions
are
incorporated
to
enhance
these
concentration
characteristics.
With
their
unique
combination
liquid
properties,
ferromagnetic
fluids
useful
in
variety
scientific
industrial
fields.
purpose
this
investigate
how
viscous
dissipation,
Soret
Dufour
effects,
affect
flow,
transfer,
transfers
over
an
stretching
surface.
For
profile,
rheological
model
(a
system
partial
differential
equations)
incorporates
thermophoresis,
Brownian
motion
effects.
Using
similarity
transformations,
equations
transformed
into
coupled
nonlinear
ordinary
equations.
BVP4C
method
employed
obtain
solutions
fluid’s
velocity,
temperature,
profiles.
Various
parameters
analyzed
determine
influence,
represented
tables
graphs
for
both
PST
PHF
processes.
Results
specific
cases
compared
previously
published
results,
showing
good
agreement.
Thermal
increases
processes,
while
reduces
velocity
PST.
Язык: Английский