Electromagnetic mixed convective flow of dusty hyperbolic tangent hybrid nanofluid over a stretching surface: A quadratic regression analysis using RSM
M V Varsha,
B. N. Hanumagowda,
K. M. Pavithra
и другие.
International Journal of Thermofluids,
Год журнала:
2024,
Номер
23, С. 100803 - 100803
Опубликована: Авг. 1, 2024
Язык: Английский
MHD Corrugated Wall Lid-Driven Mixed Convection in a Porous-Nanofluid Staggered Enclosure
Iranian Journal of Science and Technology Transactions of Mechanical Engineering,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 12, 2025
Язык: Английский
Double-Diffusive Mixed Convection and Entropy Generation of Fe3O4-CoFe2O4-Water Hybrid Nanofluid in an Enclosure with a Heated Wavy Cylinder
Results in Engineering,
Год журнала:
2025,
Номер
unknown, С. 104345 - 104345
Опубликована: Фев. 1, 2025
Язык: Английский
Artificial Neural Network (ANN) approach in predicting the thermo-solutal transport rate from multiple heated chips within an enclosure filled with hybrid nanocoolant
International Journal of Thermofluids,
Год журнала:
2024,
Номер
unknown, С. 100923 - 100923
Опубликована: Окт. 1, 2024
Язык: Английский
Editorial: Advances in Heat Transfer Science: Enhanced Techniques for Modern Industrial Applications
International Journal of Thermofluids,
Год журнала:
2025,
Номер
unknown, С. 101145 - 101145
Опубликована: Фев. 1, 2025
Язык: Английский
Multi-sinusoidal behaviors in thermosolutal vibrational flow through an anisotropic medium with NEPCM in an irregular domain containing an inner isothermal chain
Ain Shams Engineering Journal,
Год журнала:
2025,
Номер
16(8), С. 103491 - 103491
Опубликована: Май 26, 2025
Язык: Английский
Computational analysis of magnetohydrodynamic buoyancy-driven flow and thermal transmission within a circular dome-shaped porous enclosure using finite difference scheme
International Journal of Numerical Methods for Heat & Fluid Flow,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 17, 2025
Purpose
Heat
transfer
efficiency
is
crucial
for
enhancing
device
performance
across
various
engineering
and
industrial
sectors,
including
high-performance
heat
exchangers,
solar
collectors,
electronic
components,
nuclear
reactors,
space
thermal
management
lithium-ion
batteries,
which
have
posed
challenges
in
recent
years.
Natural
convection
one
of
the
significant
ways
to
boost
cooling
these
domains.
Motivated
by
this
application,
study
aims
examine
flow
a
porous
circular
dome-shaped
cavity
under
influence
Lorentz
force
radiation.
Design/methodology/approach
Designing
model
plays
an
important
role
performance,
will
considerable
impact
on
energy
usage.
The
partial
differential
equations
are
discretized
using
finite
difference
approximation.
computational
simulations
been
conducted
different
key
parameter
values
Rayleigh
numbers
(10
3
≤
Ra
10
6
),
Darcy
−4
Da
−1
radiation
parameters
(0
Rd
5),
generation/absorption
coefficient
(−5
Q
5)
Hartmann
Ha
30).
temperature
distributions
analyzed
presence
absence
radiation,
as
well
generation
absorption.
Findings
Remarkably,
intriguing
observations
noticed
circulation
when
applying
high
magnetic
forces
within
domain.
velocity
increases
significantly
with
rise
buoyancy-driven
number.
As
number
boosts
from
–10
,
average
rate
improves
134.38%,
while
it
decreases
84.92%
augmenting
0
30.
transmission
monotonically
enlarging
source
parameters,
insignificant
changes
sink
parameter.
Practical
implications
findings
investigation
can
be
beneficial
controlling
characteristics
applications,
equipment’s
such
steam
generator
tubes
power
collectors.
Originality/value
To
best
authors’
knowledge,
researchers
not
yet
examined
magnetohydrodynamic
free
fluid
distribution
porous,
circular,
enclosure
influenced
source/sink
Язык: Английский
Analysing Fluid Flow and Heat Transfer Comparatively in Flow Passage Systems: Evaluating Thermal Impacts and Geometric Configurations
International Journal of Thermofluids,
Год журнала:
2024,
Номер
unknown, С. 100894 - 100894
Опубликована: Сен. 1, 2024
Язык: Английский
Enhanced thermal efficiency on mixed convection flow of TiO2 – water nanofluid inside a double lid driven zigzag cavity with and without heated obstacles insertion
International Journal of Thermofluids,
Год журнала:
2024,
Номер
25, С. 101040 - 101040
Опубликована: Дек. 26, 2024
Язык: Английский