ZAMM ‐ Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik,
Journal Year:
2024,
Volume and Issue:
104(11)
Published: Oct. 1, 2024
Abstract
The
performances
of
the
heat
transfer
due
to
dissipative
likely
magnetic
dissipation
is
a
challenging
field
research
because
it's
diversifies
applications
in
industries
and
engineering.
Particularly,
nowadays,
biomedical
implementation
along
with
thermal
radiation
vital.
Based
upon
current
scenario,
present
investigation
leading
role
vis‐à‐vis
on
water‐based
hybrid
nanofluid
past
an
electro‐magnetized
elongating
surface
associated
melting
boundary
conditions.
adaptation
transformed
rule
particularly,
similarity
rules
are
useful
convert
proposed
set
problems
ordinary.
Further,
shooting‐based
numerical
technique
handle
governing
equations.
interesting
novel
approach
this
topic
use
robust
statistical
technique,
that
is,
response
methodology
for
optimizing
Nusselt
number
various
factors.
Moreover,
validation
obtained
by
conducting
hypothetical
testing
using
analysis
variance
(ANOVA)
which
conforms
best
output
model
appropriate
response.
major
outcomes
study
depicted
as;
unsteadiness
parameter
decelerates
velocity
profile
interaction.
However,
increasing
particle
concentration
favours
enhancing
transport
phenomenon.
Numerical Heat Transfer Part B Fundamentals,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 27
Published: May 19, 2024
The
ability
of
motile
microorganisms
is
used
to
design
biomedical
nanofluidic
devices
that
utilize
for
targeted
drug
delivery,
influence
heat
transfer
in
nanofluids
are
applied
the
optimization
cooling
system,
biotechnological
processes
where
precise
control
over
fluid
flow,
etc.
However,
based
upon
several
facts,
current
investigation
lead
propose
characteristic
swimming
a
flow
bio-convection
nanofluid
rotating
circular
disk.
proposed
study
explores
impacts
dissipative
generated
by
movement
microorganisms,
thermal
radiation,
and
chemical
reactions.
impact
cross-diffusive
property
organized
implementation
Brownian
motion
thermophorsis
energies
phenomena
bio-convection.
set
coupled
nonlinear
system
non-dimensional
equations
obtained
similarity
rules
further
quasi-linearization
method
utilized
solution
this
system.
characteristics
diversified
parameters
presented
through
graphs
with
variation
factors
within
their
certain
limitations
thee
discuss
briefly.
Further,
important
outcomes
as;
velocity
decelerates
due
enhanced
non-Newtonian
Casson
parameter,
whereas
radiating
inclusion
radiation
coupling
is,
Eckert
number
boosts
up
transport
phenomena.
Case Studies in Thermal Engineering,
Journal Year:
2024,
Volume and Issue:
61, P. 104842 - 104842
Published: July 18, 2024
The
increasing
need
for
a
steady
energy
supply
to
enhance
efficiency
is
progressively
growing
in
both
residential
and
manufacturing
industries.
This
demand
can
be
addressed
by
utilizing
advanced
technologies
like
melting
heat
generator
produce
significant
amounts
of
prevent
overheating.
Based
on
the
above
applications
heat,
consequences
transfer
induction
ternary
hybrid
nanofluid
(T-HNF)
exposed
solar
radiation
mechanism
an
erratic
squeezing
flow
are
considered.
nanoparticles
Copper
(Cu),
Silicon
dioxide
(SiO2),
Zirconium
(ZrO2)
immersed
base
fluid
Engine
oil
(EO)
resulting
T-HNF
(Cu
+
SiO2
ZrO2/EO).
model
equation
also
takes
into
account
entropy
generation
minimization
Bejan
number.
Both
spectral
collocation
technique
(SCT)
finite
element
scheme
(FES)
applied
solve
ordinary
differential
equations
(ODEs)
through
Mathematica
package.
Our
results
reveal
that
impact
three-component
increases,
while
parameter
raises
profile.
Also,
increase
magnetic
field
deteriorates
velocity
distribution.
research
has
various
potential
applications,
such
as
ice
snow
melting,
thermal
storage,
food
industry.
Numerical Heat Transfer Part A Applications,
Journal Year:
2024,
Volume and Issue:
unknown, P. 1 - 23
Published: June 11, 2024
In
connection
to
the
various
applications
on
energy
conservation,
fluid-based
electronics;
coupling
of
electro-magnetic
along
with
heat
generation
presents
their
significant
approach.
Therefore,
current
investigation
aims
at
analyzing
role
ferrite-water
hybrid
nanofluid
in
an
Electro-Magnetohydrodynamics
(EMHD)
system.
However,
it
utilizes
flow
over
a
Riga
plate
variable
properties
magnetization
inclusion
thermal
radiation
and
generation.
Elucidating
influence
ferrite
nanoparticles,
unsteady
nature
system
addressed
nanofluid.
The
equations
is
handled
numerically
adopting
shooting-based
fourth-order
Runge-Kutta
technique
followed
by
similarity
rules
those
are
used
transformed
governing
phenomena
into
ordinary.
To
maximize
EMHD
efficiency,
optimization
framework
employed
using
response
surface
methodology
(RSM).
validate
work
hypothetical
test
conducted
help
analysis
variance
(ANOVA).
Through
sensitive
analysis,
key
factors
for
transfer
rate
identified.
Further,
measure
outcomes
results
are;
nanoparticles
increasing
parameter
fluid
velocity
augments
magnitude.
sheet
became
cool
radiate
from
region
which
temperature
boosts
up.
