Statistical investigation of heat transfer efficiency on a ternary nanoflow over a stretching surface
M. Ragavi,
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P. Sreenivasulu,
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T. Poornima
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et al.
Case Studies in Thermal Engineering,
Journal Year:
2024,
Volume and Issue:
61, P. 104958 - 104958
Published: Aug. 9, 2024
Ternary
hybrid
nanofluids
offer
significant
advantages
in
heat
transfer
due
to
their
enhanced
thermal
conductivity
compared
traditional
fluids.
Investigating
flow
behavior
over
expanding
surfaces
can
contribute
the
development
of
more
efficient
exchangers
and
cooling
systems
electronics,
energy
production,
transportation
industries.
This
paper
presents
a
detailed
analysis
characteristics
ternary
nanofluid
(SiO2–Cu–Al2O3/H2O)
radially
stretching
surface,
utilizing
both
numerical
techniques
(Keller
Box
method)
statistical
techniques.
Furthermore,
model
includes
factors
like
convective
transport,
radiation,
internal
fluid
friction,
suction.
Similarity
transformations
transform
governing
equations
for
into
system
nonlinear
ordinary
differential
equations.
Then
are
solved
numerically
using
Keller
method
with
aid
MATLAB
software.
Additionally,
we
have
employed
such
as
correlation
analysis,
probable
error
estimation,
multivariate
regression
validate
ensure
accuracy
outcomes.
Parameter
ranges
Biot
number,
unsteadiness,
Eckert
generation
parameter
0.1
≤
Mp
0.7,
Ks
1.5,
0.2
Ps
0.8,
EN
0.4,
0.5
RN
2,
1≤
BT
2.5,
Hsc
0.7
found
significantly
impact
within
these
bounds.
study
utilizes
3D
surface
plots
visualize
influence
key
parameters
on
engineering
quantities.
R
squared
values
show
that
data
strongly
match
model.
The
findings
demonstrate
excellent
concordance
between
predicted
actual
Nusselt
number
skin
friction
measurements.
has
very
strong
transfer,
minimal
chance
error.
And
same
is
evidenced
by
matrix
multiple
analysis.
also
exhibits
negative
number.
translates
situation
where
increasing
directly
leads
decrease
rate
no
margin
Energy
demonstrates
transfer.
However,
there's
slight
possibility
error,
an
estimated
percentage
around
0.0017.
Language: Английский
Unsteady Convection and Stefan Blowing Influence on Sutterby Nanofluid Past Stretching Surface
R. Revathi,
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T. Poornima
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BioNanoScience,
Journal Year:
2024,
Volume and Issue:
14(3), P. 2475 - 2490
Published: May 30, 2024
Language: Английский
Thermal radiation and local thermal non-equilibrium effects on bioconvection hybrid nanofluid using classical and modified Hamilton-Crosser models
Journal of Radiation Research and Applied Sciences,
Journal Year:
2025,
Volume and Issue:
18(3), P. 101573 - 101573
Published: May 8, 2025
Language: Английский
Computational analysis of radiative flow of power law fluid with heat generation effects: Galerkin Finite Element Simulations
Shahid Rafiq,
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Muhammad Mustahsan,
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Muhammad Asim
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et al.
Partial Differential Equations in Applied Mathematics,
Journal Year:
2024,
Volume and Issue:
12, P. 100927 - 100927
Published: Sept. 23, 2024
Language: Английский