Thermally induced cilia flow of Prandtl nanofluid under the influence of electroosmotic effects with boundary slip
Sadiq M. Sait,
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Arshad Riaz,
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Sobia Shaheen
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et al.
Journal of Taibah University for Science,
Journal Year:
2025,
Volume and Issue:
19(1)
Published: March 28, 2025
Language: Английский
Thermal transport analysis for thermally radiating entropy induced bioconvective flow of Prandtl nanomaterial
Aneeta Razaq,
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T. Hayat,
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Sohail A. Khan
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et al.
Case Studies in Thermal Engineering,
Journal Year:
2025,
Volume and Issue:
unknown, P. 105890 - 105890
Published: Feb. 1, 2025
Language: Английский
Thermal energy in electro-permeable eyring-powell hybrid nano-fluid: an advanced thermo-biological computational modeling approach
Mingliang Zheng,
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Refka Ghodhbani,
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Adnan Amjad
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et al.
Multiscale and Multidisciplinary Modeling Experiments and Design,
Journal Year:
2025,
Volume and Issue:
8(5)
Published: March 25, 2025
Language: Английский
Analysis of flow and heat transfer characteristics of ethylene glycol-based magnetite nanoparticles squeezed between parallel disks with magnetic effect
V. Satish Kumar,
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B. Devaki,
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Pareekshith G. Bhat
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et al.
Journal of Thermal Analysis and Calorimetry,
Journal Year:
2024,
Volume and Issue:
149(21), P. 12219 - 12230
Published: Aug. 22, 2024
Language: Английский
Simulation of blood flow in a tapered artery with ternary hybrid nanofluid and Jeffrey model
Modern Physics Letters B,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Nov. 11, 2024
This
research
simulates
flow
of
blood
in
a
tapered
peristaltic
artery
integrating
ternary
hybrid
nanofluid
using
the
Jeffrey
fluid
model.
The
simulation
examines
effects
Au,
Fe
3
O
4
,
and
Ag
nanoparticles
on
flow.
artery,
modeled
as
channel,
is
subjected
to
nonlinear
thermal
radiation,
magnetic
forces,
heat
source.
problem
formulated
non-linear
Cartesian
partial
differential
equations,
which
are
then
transformed
into
dimensionless
form
without
approximations.
Adomian
Decomposition
Method
(ADM)
employed
solve
these
revealing
how
normal
shear
stress,
axial
velocities,
induced
fields,
temperature
profiles
vary
with
changes
relevant
parameters.
Additionally,
biological
factors
considered
graph
streamlines,
providing
comprehensive
analysis
dynamics.
Some
notable
results
include
that
adding
increases
Nusselt
number
by
26.03%
Newtonian
fluids
158.69%
fluids,
increasing
tapering
parameters
wavenumber
improves
transfer,
complexity.
Language: Английский
Exploration of bioconvection flow for biological fluid with planktonic microorganism and thermal radiation: Drug carriers for tumor cells
Modern Physics Letters B,
Journal Year:
2024,
Volume and Issue:
39(13)
Published: July 30, 2024
One
of
the
most
cutting-edge
ways
to
combat
cancerous
cells
is
use
cell
drug
carriers.
These
microorganisms
swarm
affected
cells,
preventing
them
from
spreading
throughout
body
when
they
come
into
contact
with
outside
stimuli.
This
work
proposes
a
new
type
non-Newtonian
fluid
flow
through
microvessel
contains
oxytactic
motile
beside
nanoparticles.
swim
up
oxygen
concentration
gradient,
also
are
consumers.
serve
as
carriers
attack
and
destroy
hypoxic
tumor
cells.
The
movement
these
items
within
porous
peristaltic
conduit
that
supported
by
nanoparticles
travels
represented
mathematically
in
this
work.
mathematical
model
accounts
for
impact
thermal
radiation
forces,
thermophoresis
force,
Brownian
motion
using
main
governing
equations
describing
issue
such
momentum,
heat,
concentration,
microorganisms,
transportation,
which
solved
Adomian
decomposition
method.
findings
concentrated
on
demonstrating
streamlined
distribution
behavior
presence
microorganisms.
results
were
demonstrated
series
graphs
followed
analysis
detail.
In
summary,
some
important
discovered
physical
analysis,
an
increase
effective
diffusivity
while
resisting
decays
microorganism’s
dispersion.
Furthermore,
Sutterby
parameter
causes
temperature
decrease
all
domains
because
it
opposes
motion.
study
expected
offer
further
possibilities
enhancing
drug-carrier
applications
areas
gaining
better
understanding
blood
characteristics
those
places.
Language: Английский