Case Studies in Thermal Engineering,
Journal Year:
2023,
Volume and Issue:
47, P. 103058 - 103058
Published: May 11, 2023
Ethanol
and
biodiesel,
which
both
belong
to
the
first
generation
of
biofuel
technology,
are
two
most
popular
forms
biofuels
now
in
use.
In
order
create
next-generation
using
waste,
cellulosic
biomass,
algae-based
resources,
Bioenergy
Technologies
Office
(BETO)
is
working
with
business.
The
present
article
designed
study
effect
tetra
hybrid
nanoparticles
utilization
novel
Hamilton
Crosser
model
catalytic
reaction
on
binary
fluid
consideration
ethanol
as
a
base
fluid.
comprising
heterogeneous
amplifies
thermal
conductivity
significantly
increases
brake
efficiency
reduces
brake-specific
fuel
consumption
diesel
engines.
Therefore,
aim
this
theoretical
checkup
that
related
heat
mass
transport
flow
considering
accompanied
autocatalysis
biofluid
subjected
Riga
wedge.
Transportation
via
nonuniform
source/sink,
radiation,
our
consideration.
mathematics
assumed
problem
generates
system
non-linear
partial
differential
equations
from
basic
momentum,
energy,
mass.
usage
non-dimensional
variables
gave
ODEs
boundary
conditions
further
dealt
Lobatto111A
scheme.
results
obtained
for
stretching/shrinking
wedge
several
parameters.
From
results,
it
observed
velocity
field
diminishes
owing
magnification
Weissenberg
number
Casson
parameter.
temperature
by
amplifying
generation,
variable
Concentration
distribution
escalates
rising
homogeneous
Case Studies in Thermal Engineering,
Journal Year:
2023,
Volume and Issue:
47, P. 103064 - 103064
Published: May 19, 2023
The
improvement
of
heat
transfer
is
the
focus
this
paper's
innovative
theoretical
ternary
hybridity
nanofluid
(HNF)
prototype.
In
examination,
blood
employed
as
conventional
liquid,
and
tri-hybrid
nanomolecules
Au,
Ag,
TiO2
are
submerged
in
it.
extension
has
been
made
Tiwari
Das
hybrid
model
to
transform
it
for
case
a
trihybrid
nanofluid.
By
consuming
resemblance
variables
Keller
box
methodology
(KBM)
resolve
ordinary
differential
equations
(ODEs)
resulting
from
conversion
liquid
flowing
temperature
formulas.
results
graphed,
shown
that
tri-hybridity
(THNF)
greater
thermal
conductance
than
HNF.
transference
rate
increases
situation
an
augmentation
conduction
radiation
effect
which
helps
remove
toxic
plaque
through
arteries.
This
additional
produced
because
amplification
radiative
fluxing
used
open
rigid
arteries
flow.
Partial Differential Equations in Applied Mathematics,
Journal Year:
2023,
Volume and Issue:
8, P. 100570 - 100570
Published: Oct. 14, 2023
The
current
study
explores
the
behavior
of
particle
shape
on
radiative
flow
Casson
hybrid
nanofluid
towards
an
expanding/contracting
convective
sheet.
under
onsideration
is
a
water-based
comprising
carbon
nanotubes
(CNTs)
with
shapes.
factor
employed
to
determine
its
significance
characteristic.
standard
equations
for
and
thermal
transportation
are
derived
based
conservation
laws,
including
simultaneous
effects
viscous
dissipation,
radiation,
along
uniform
heat
source.
model
pronounce
rheological
characteristic
nanofluid,
taking
into
account
non-Newtonian
nature
fluid.
To
further
explore
system,
influence
multiple
slip
inclined
magnetic
field
considered.
Multiple
occur
due
presence
velocity,
thermal,
concentration
slips
at
solid-fluid
interface.
introduced
investigate
magnetohydrodynamic
(MHD)
characteristics.
Numerical
simulations
performed
using
appropriate
numerical
techniques
solve
resulting
system
equations.
various
parameters,
such
as
shape,
inclination,
thoroughly
analyzed.
main
findings
this
works
are;
interaction
CNTs
that
enhances
conductivity
boost
up
transfer
rate
further,
concentrations
enhance
fluid
temperature
significantly.
observation
indicates
increasing
both
velocity
distribution.
