In
daily
life,
electrical
power
is
very
important
source
to
maintain
our
works.
The
all
working
branch
uses
technological
devices,
and
the
nearly
devices
use
electricity
as
a
supply.
This
situation
has
been
increased
energy
demand
during
passing
time.
mostly
produced
by
using
limited
hydroelectrical
generators,
fossil
fuel-based
independent
renewable
systems.
Our
aim
design
system
that
PV,
TEG
control
method
fuzzy
logic
control.
one
of
artificial
intelligent
systems
it
relatively
new
method.
designed
for
supply
AC
loads.
full
bridge
inverter
used
three
different
result
shown
(total
circuits)
efficiency
98.8%.
Energy Reports,
Год журнала:
2023,
Номер
9, С. 1426 - 1435
Опубликована: Янв. 2, 2023
Photovoltaic
(PV)
and
thermoelectric
(TE)
hybrid
systems
have
the
potential
to
increase
solar
energy
utilization
possess
broad
development
prospects.
However,
it
is
critical
select
a
suitable
PV
cell
couple
with
TE
device
improve
efficiency
of
photovoltaic–thermoelectric
(PV-TE)
system.
This
study
used
thermal
interface
materials
(TIMs)
different
conductivities
in
triple-junction
InGaP/GaAs/GeInG
(tj-GaAs)
PV-TE
reduce
contact
resistance
(TCR).
The
performance
was
investigated
using
simulator
adjustable
irradiation
intensity
liquid
cooling
controllable
temperature.
A
comparative
has
also
been
conducted
mono-crystalline
(mc-Si)
system
similar
structure.
results
indicated
that
total
output
power
direct
optimized
grease
conductivity
5.8
W
m−1
K−1
could
by
5.50%
16.24%,
respectively,
compared
pure
PV.
Moreover,
lower
water
temperatures
improved
both
device.
Results
produced
tj-GaAs
are
537
mW
0.76
higher
than
mc-Si
silicon
at
3.5
suns
20
°C
temperature,
respectively.
Compared
cells,
GaAs
cells
more
for
adaptable
under
concentrated
light
conditions.
In
daily
life,
electrical
power
is
very
important
source
to
maintain
our
works.
The
all
working
branch
uses
technological
devices,
and
the
nearly
devices
use
electricity
as
a
supply.
This
situation
has
been
increased
energy
demand
during
passing
time.
mostly
produced
by
using
limited
hydroelectrical
generators,
fossil
fuel-based
independent
renewable
systems.
Our
aim
design
system
that
PV,
TEG
control
method
fuzzy
logic
control.
one
of
artificial
intelligent
systems
it
relatively
new
method.
designed
for
supply
AC
loads.
full
bridge
inverter
used
three
different
result
shown
(total
circuits)
efficiency
98.8%.