IET Generation Transmission & Distribution,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 30, 2024
Abstract
The
escalating
global
population
and
energy
demands
underscore
the
critical
role
of
renewable
sources,
particularly
solar
power,
in
mitigating
environmental
degradation
caused
by
traditional
fossil
fuels.
This
paper
emphasizes
advantages
energy,
especially
photovoltaic
(PV)
systems,
which
have
become
pivotal
hybrid
systems.
However,
accurate
modelling
identification
PV
cell
parameters
pose
challenges,
prompting
adoption
meta‐heuristic
optimization
algorithms.
work
explores
limitations
existing
algorithms
introduces
a
novel
approach,
bio‐dynamics
grasshopper
algorithm
(BDGOA).
BDGOA
addresses
deficiencies
both
exploration
exploitation
phases,
exhibiting
exceptional
convergence
speed
efficiency.
algorithm's
simplicity,
achieved
through
implementation
an
elimination
phase
controlled
search
space,
enhances
its
performance
without
intricate
calculations.
study
evaluates
applying
it
to
identify
unknown
five
modules.
effectiveness
is
demonstrated
extraction
for
RTC
France,
PWP201,
SM55,
KC200GT,
SW255
models,
validated
against
experimental
data
under
diverse
conditions.
concludes
with
insights
into
impact
radiation
temperature
on
module
parameters.
subsequent
sections
delve
intricacies
model,
articulate
formulation
proposed
algorithm,
present
simulations,
analyse
obtained
results.
emerges
as
promising
solution,
overcoming
contributing
significantly
advancement
efficient
parameter
identification,
thereby
propelling
progress
towards
sustainable
future.
International Journal of Hydrogen Energy,
Journal Year:
2024,
Volume and Issue:
78, P. 642 - 661
Published: June 29, 2024
The
transition
to
a
hydrogen-based
economy
presents
promising
solution
the
challenges
posed
by
unsustainable
energy
systems
and
reliance
on
fossil
fuels.
This
comprehensive
review
explores
various
hydrogen
production
methods,
emphasizing
their
technological
advancements,
sustainability
implications,
future
prospects.
Beginning
with
an
overview
of
hydrogen's
significance
as
clean
carrier,
examines
key
methods
such
Steam
Methane
Reforming,
Electrolysis
(Proton
Exchange
Membrane,
alkaline,
solid
oxide),
Biomass
Gasification,
Photoelectrochemical
Water
Splitting,
Thermochemical
Processes.
Each
method
is
scrutinized
for
its
efficiency,
environmental
impact,
scalability,
providing
valuable
insights
into
roles
in
advancing
economy.
highlights
transformative
potential
replace
fuels
due
ability
store
renewable
long-term
zero
emissions.
It
also
discusses
including
high-efficiency
solid-state
electrolysis
advanced
catalysts
water
splitting,
highlighting
avenues
innovation
production.
Additionally,
policy
recommendations
aimed
at
promoting
fostering
collaboration
between
academia,
industry,
governments
are
elucidated.
Through
detailed
analysis
technologies
prospects,
this
contributes
shaping
trajectory
sustainable
systems,
adoption
vector,
underscoring
importance
alternative
sources.
Current Opinion in Green and Sustainable Chemistry,
Journal Year:
2024,
Volume and Issue:
48, P. 100939 - 100939
Published: May 29, 2024
In
the
ongoing
effort
to
reduce
carbon
emissions
on
a
worldwide
scale,
green
hydrogen,
which
is
generated
through
environmentally
responsible
processes,
has
emerged
as
significant
driving
force.
As
demand
for
clean
energy
continues
rise,
it
becoming
increasingly
important
have
solid
understanding
of
technological
and
economic
elements
modern
techniques
producing
hydrogen.
context
hydrogen
generation
production's
techno-economic
features
necessary
transition
low-carbon
economy.
associated
with
breakthroughs
in
technology,
present
study
examines
most
fascinating
relevant
aspects
analysis.
Despite
challenges,
can
help
world
move
cleaner,
more
sustainable
future
analytical
frameworks
legislation.
Energy Science & Engineering,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 15, 2025
ABSTRACT
Minimizing
the
detrimental
effects
of
global
warming
and
pollution
from
fossil
fuel
consumption
is
essential
to
meet
growing
demand
for
energy
fresh
water,
making
it
imperative
adopt
renewable
alternatives.
The
integration
solar
biomass
in
hybrid
systems
will
grow
importance.
proposed
study
introduces
a
new
design
that
facilitates
simultaneous
production
power,
biogas,
water
continuous
process.
present
research
aims
tackle
challenge
utilizing
multiple
sources,
such
as
biomass,
generate
fuel,
water.
To
achieve
this,
4‐stage
multi‐effect
desalination
system
be
employed
desalinating
seawater.
This
paper
discusses
combining
feedstocks
address
maintaining
consistent
power
plants
at
night,
when
there
no
sunlight.
hand
involves
assessing
various
factors
using
ASPEN
Plus
software,
heat
transfer
fluid
(SHTF),
sewage
sludge
flowrates,
biogas
production,
output
waste
stream
gasification
reactor,
generation,
freshwater
production.
Additionally,
payback
period
this
project
approximately
4.8
years,
with
net
value
(NPV)
around
560
million
dollars.
By
performing
sensitivity
analysis,
viability
designed
process
quality
resulting
products
were
effectively
demonstrated.
From
process,
an
impressive
76.8586
tons
per
hour
syngas,
composed
carbon
monoxide
hydrogen,
was
generated.
reached
34.547
MW,
while
simultaneously
producing
783
m
3
/h
Due
efficient
recovery
throughout
entire
only
25
MW
required.
Despite
efforts,
operating
50%
productivity
level.
supply
required
during
daylight
hours,
total
38,908
square
meters
Parabolic
trough
collector
(PTC)
necessary.
According
environmental
primary
concern
effect
on
human
health.
Solar
collectors
sea
units
account
over
95%
pollution.
revelation
showed
resources
could
provide
sustainable
solution
rising
electricity,
fuel.
