Existing
plant
filler
lights
generally
have
serious
problems
such
as
huge
energy
consumption,
incomplete
spectrum,
mismatch
with
spectral
demand,
and
poor
sustainability.
In
order
to
solve
these
realize
the
concept
of
saving
intelligent
management,
this
study
proposes
a
solar-based
fill
light
system
for
greenhouses.
The
adopts
separate
design
photovoltaic
power
generation
control,
in
improve
practicability
light,
we
integrate
control
technology
well
Internet
Things
(IoT)
into
light.
Combined
PC
are
able
switch
different
spectra
at
any
time
following
plants
grown.
Through
numerical
example
analysis
experimental
research,
verified
effectiveness
system.
successfully
provides
function
greenhouses,
further
realizing
application
solar
optimizing
use.
This
viable
solution
supplemental
greenhouse
helps
address
challenges
insufficient
lack
sustainability
high
labor
costs
plants.
Energies,
Год журнала:
2024,
Номер
17(23), С. 6051 - 6051
Опубликована: Дек. 2, 2024
This
study
investigates
the
feasibility
of
utilizing
surplus
hydropower
from
Ecuador’s
major
hydroelectric
plants
to
produce
green
hydrogen,
a
clean
energy
source
that
can
be
used
meet
large
percentage
needs.
Given
significant
infrastructure,
this
approach
leverages
untapped
resources
for
hydrogen
production,
with
potential
impacts
on
decarbonization
strategies.
A
Pareto
analysis
identified
five
key
contribute
most
national
surplus.
Using
historical
data
2019
2023,
stochastic
model
was
applied
estimate
future
availability
through
2030.
The
findings
indicate
although
peaked
in
2021,
general
trend
shows
decline,
suggesting
an
urgent
need
capitalize
these
efficiently.
results
projected
annual
Ecuador,
ranging
7475
3445
GWh
over
next
years,
which
could
utilized
production.
Ecuador
thus
has
promising
become
producer,
enhancing
both
regional
security
and
carbon
reduction
goals.
production
is
attributed
increasing
demand
variable
climatic
conditions.
Existing
plant
filler
lights
generally
have
serious
problems
such
as
huge
energy
consumption,
incomplete
spectrum,
mismatch
with
spectral
demand,
and
poor
sustainability.
In
order
to
solve
these
realize
the
concept
of
saving
intelligent
management,
this
study
proposes
a
solar-based
fill
light
system
for
greenhouses.
The
adopts
separate
design
photovoltaic
power
generation
control,
in
improve
practicability
light,
we
integrate
control
technology
well
Internet
Things
(IoT)
into
light.
Combined
PC
are
able
switch
different
spectra
at
any
time
following
plants
grown.
Through
numerical
example
analysis
experimental
research,
verified
effectiveness
system.
successfully
provides
function
greenhouses,
further
realizing
application
solar
optimizing
use.
This
viable
solution
supplemental
greenhouse
helps
address
challenges
insufficient
lack
sustainability
high
labor
costs
plants.
