Modern Physics Letters B,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Dec. 4, 2024
The
transport
phenomenon
in
the
presence
of
magnetic
field
has
diverse
application
living
structures,
biotechnology
and
chemical
environmental
engineering.
Biomedical
applications
include
examples
computational
biology,
replacement
tissue,
drug
delivery,
advance
medical
imaging,
repairing
bones,
complex
liver
heart
surgeries
kidney
transplant.
Motivated
by
human
physiology,
peristaltic
Carreau-hybrid
nanomaterial
through
a
curved
channel
is
studied.
hybrid
nanofluid
supported
with
silver
[Formula:
see
text]
copper
oxide
nanoparticles
subject
to
ethylene
glycol
text]-based
liquid.
wavy
nature
physiological
duct
inspired
model
problem
channel.
basic
governing
laws
are
utilized
for
mathematical
modeling
dimensionless
variables
used
formulation.
simplified
pattern
been
revealed
assumptions
long
wavelength
as
well
creeping
flow
constricts.
computations
obtained
implanting
Newton–Dirichlet
Solve
(ND)
algorithm.
Comparative
thermal
observations
predicted
(Ag–CuO/EG).
different
heat
transfer
features
plotted
against
several
involved
parameters
presented
graphically.
Modern Physics Letters B,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 17, 2024
The
peristaltic
flow
with
applications
of
electro-osmotic
phenomenon
finds
novel
in
microfluidic
devices,
biotechnology,
environmental
engineering,
micro-reactor,
and
various
medical
devices.
Owing
to
such
motivations
mind,
the
objective
this
analysis
is
present
transport
Prandtl
hybrid
nanofluid
due
non-uniform
duct.
characteristics
have
been
justified
by
using
single-walled
carbon
nanotubes
(SWCNT)
as
well
multiple-walled
(MWCNT)
uniformly
decomposed
engine
oil
base
liquid.
aspects
viscous
dissipation
Joule
heating
effects
are
attributed.
thermal
problem
further
influenced
force.
electric
field
attributed
help
Poisson–Boltzmann
Nernst–Planck
expressions.
simplification
expressions
done
via
Debye–Heckle
linearization.
modeled
under
certain
constraints
creeping
lubrication
theory.
numerical
treatment
performed
Keller
Box
method.
Physical
visualization
results
for
assisting
opposing
electro-kinetic
pumping
constraints.
It
claimed
that
velocity
profile
increases
central
line
duct
variation
coefficient.
heat
transfer
reduces
potential
ratio
parameter
constant.
Furthermore,
enhancement
fluid
leads
decrement
axial
pressure.
Modern Physics Letters B,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Dec. 4, 2024
The
transport
phenomenon
in
the
presence
of
magnetic
field
has
diverse
application
living
structures,
biotechnology
and
chemical
environmental
engineering.
Biomedical
applications
include
examples
computational
biology,
replacement
tissue,
drug
delivery,
advance
medical
imaging,
repairing
bones,
complex
liver
heart
surgeries
kidney
transplant.
Motivated
by
human
physiology,
peristaltic
Carreau-hybrid
nanomaterial
through
a
curved
channel
is
studied.
hybrid
nanofluid
supported
with
silver
[Formula:
see
text]
copper
oxide
nanoparticles
subject
to
ethylene
glycol
text]-based
liquid.
wavy
nature
physiological
duct
inspired
model
problem
channel.
basic
governing
laws
are
utilized
for
mathematical
modeling
dimensionless
variables
used
formulation.
simplified
pattern
been
revealed
assumptions
long
wavelength
as
well
creeping
flow
constricts.
computations
obtained
implanting
Newton–Dirichlet
Solve
(ND)
algorithm.
Comparative
thermal
observations
predicted
(Ag–CuO/EG).
different
heat
transfer
features
plotted
against
several
involved
parameters
presented
graphically.
