Fuel,
Journal Year:
2024,
Volume and Issue:
371, P. 131899 - 131899
Published: May 24, 2024
One
of
the
major
challenges
in
harnessing
energy
from
renewable
sources
like
wind
and
solar
is
their
intermittent
nature.
Energy
production
these
can
vary
based
on
weather
conditions
time
day,
making
it
essential
to
store
surplus
for
later
use
when
there
a
shortfall.
storage
systems
play
crucial
role
addressing
this
intermittency
issue
ensuring
stable
reliable
supply.
Green
hydrogen,
sourced
renewables,
emerges
as
promising
solution
meet
rising
demand
sustainable
energy,
depletion
fossil
fuels
environmental
crises.
In
present
study,
underground
hydrogen
various
geological
formations
(aquifers,
depleted
hydrocarbon
reservoirs,
salt
caverns)
examined,
emphasizing
need
detailed
analysis
potential
hazards.
The
paper
discusses
associated
with
storage,
including
requirement
extensive
studies
understand
interactions
microorganisms.
It
underscores
importance
issue,
focus
reviewing
past
projects
sites,
well
modeling
field.
also
emphasizes
incorporating
hybrid
into
overcome
limitations
standalone
systems.
further
explores
future
integrations
green
within
dynamic
landscape.
Energies,
Journal Year:
2024,
Volume and Issue:
17(16), P. 4128 - 4128
Published: Aug. 19, 2024
The
integration
of
renewable
energy
sources
(RES)
into
smart
grids
has
been
considered
crucial
for
advancing
towards
a
sustainable
and
resilient
infrastructure.
Their
is
vital
achieving
sustainability
among
all
clean
sources,
including
wind,
solar,
hydropower.
This
review
paper
provides
thoughtful
analysis
the
current
status
grid,
focusing
on
integrating
various
RES,
such
as
wind
grid.
highlights
significant
role
RES
in
reducing
greenhouse
gas
emissions
traditional
fossil
fuel
reliability,
thereby
contributing
to
environmental
empowering
security.
Moreover,
key
advancements
grid
technologies,
Advanced
Metering
Infrastructure
(AMI),
Distributed
Control
Systems
(DCS),
Supervisory
Data
Acquisition
(SCADA)
systems,
are
explored
clarify
related
topics
usage
technologies
enhances
efficiency,
resilience
introduced.
also
investigates
application
Machine
Learning
(ML)
techniques
management
optimization
within
with
techniques.
findings
emphasize
transformative
impact
advanced
alongside
need
continued
innovation
supportive
policy
frameworks
achieve
future.
Sustainable Energy Research,
Journal Year:
2024,
Volume and Issue:
11(1)
Published: July 20, 2024
Abstract
The
global
energy
sector
is
currently
undergoing
a
transformative
shift
mainly
driven
by
the
ongoing
and
increasing
demand
for
clean,
sustainable,
reliable
solutions.
However,
integrating
renewable
sources
(RES),
such
as
wind,
solar,
hydropower,
introduces
major
challenges
due
to
intermittent
variable
nature
of
RES,
affecting
grid
stability
reliability.
Hybrid
storage
systems
(HESS),
which
combine
multiple
devices
(ESDs),
present
promising
solution
leveraging
complementary
strengths
each
technology
involved.
This
comprehensive
review
examines
recent
advancements
in
grid-connected
HESS,
focusing
on
their
components,
design
considerations,
control
strategies,
applications.
It
provides
detailed
analysis
technological
progress
various
ESDs
critical
role
power
conversion,
control,
management,
cooling
optimizing
HESS
performance.
Highlighting
case
studies
some
notable
successful
implementations
across
globe,
we
illustrate
practical
applications
identify
benefits
encountered.
By
addressing
these
challenges,
can
significantly
enhance
efficiency
reliability
supporting
towards
sustainable
resilient
infrastructure.
paper
concludes
identifying
future
research
directions,
highlighting
development
intelligent
systems,
materials,
efficient
recycling
processes
ensure
widespread
adoption
long-term
viability
HESS.
Energy Science & Engineering,
Journal Year:
2024,
Volume and Issue:
12(5), P. 1934 - 1968
Published: March 6, 2024
Abstract
The
rapidly
growing
global
need
for
environmentally
friendly
energy
solutions
has
inspired
extensive
research
and
development
efforts
aimed
at
harnessing
the
potential
of
hydrogen
energy.
Hydrogen,
with
its
diverse
applications
relatively
straightforward
acquisition,
is
viewed
as
a
promising
carrier
capable
tackling
pressing
issues,
such
carbon
emissions
reduction
storage.
This
study
conducts
preliminary
investigation
into
effective
generation
storage
systems,
encompassing
methods
like
water
electrolysis,
biomass
reforming,
solar‐driven
processes.
Specifically,
focuses
on
assessing
nanostructured
catalysts
innovative
materials
to
enhance
productivity
versatility
systems.
Additionally,
utilization
novel
not
only
improves
capacity
safety
but
also
opens
up
possibilities
inventive
applications,
including
on‐demand
release
efficient
transportation.
Furthermore,
critical
factors
catalyst
design,
material
engineering,
system
integration,
technoeconomic
viability
are
examined
identify
challenges
chart
paths
future
advancements.
emphasizes
importance
fostering
interdisciplinary
collaborations
advance
technologies
contribute
sustainable
future.
Fuel,
Journal Year:
2024,
Volume and Issue:
371, P. 131899 - 131899
Published: May 24, 2024
One
of
the
major
challenges
in
harnessing
energy
from
renewable
sources
like
wind
and
solar
is
their
intermittent
nature.
Energy
production
these
can
vary
based
on
weather
conditions
time
day,
making
it
essential
to
store
surplus
for
later
use
when
there
a
shortfall.
storage
systems
play
crucial
role
addressing
this
intermittency
issue
ensuring
stable
reliable
supply.
Green
hydrogen,
sourced
renewables,
emerges
as
promising
solution
meet
rising
demand
sustainable
energy,
depletion
fossil
fuels
environmental
crises.
In
present
study,
underground
hydrogen
various
geological
formations
(aquifers,
depleted
hydrocarbon
reservoirs,
salt
caverns)
examined,
emphasizing
need
detailed
analysis
potential
hazards.
The
paper
discusses
associated
with
storage,
including
requirement
extensive
studies
understand
interactions
microorganisms.
It
underscores
importance
issue,
focus
reviewing
past
projects
sites,
well
modeling
field.
also
emphasizes
incorporating
hybrid
into
overcome
limitations
standalone
systems.
further
explores
future
integrations
green
within
dynamic
landscape.
