Multiscale and Multidisciplinary Modeling Experiments and Design,
Journal Year:
2024,
Volume and Issue:
7(4), P. 3153 - 3172
Published: May 27, 2024
Abstract
The
urgent
need
for
sustainable
energy
solutions
in
light
of
escalating
global
demands
and
environmental
concerns
has
brought
hydrogen
to
the
forefront
as
a
promising
renewable
resource.
This
study
provides
comprehensive
analysis
technologies
essential
production
operation
fuel
cell
vehicles,
which
are
emerging
viable
alternative
traditional
combustion
engine
vehicles.
It
examines
various
types,
storage
methods,
refueling
logistics,
role
batteries
paper
also
explores
potential
impact
advancements
artificial
intelligence
quantum
computing
on
development
A
assessment
reveals
that
South
Korea
(19,270)
United
States
(12,283)
leading
adoption
fuel-cell
particularly
passenger
car
segment
(82%),
followed
by
buses
(9.2%)
trucks
(8.7%).
highlights
challenges
hindering
vehicle
implementation,
such
consistent
investment
collaboration
among
industry
stakeholders
promote
transportation
systems.
underscores
practicality
exemplified
models
like
Toyota
Mirai
Hyundai
Nexo,
offer
significant
driving
ranges
demonstrate
integration
advanced
technologies.
discusses
benefits
including
their
ability
operate
with
zero
emissions
when
paired
sources.
Graphical
Energies,
Journal Year:
2025,
Volume and Issue:
18(5), P. 1231 - 1231
Published: March 3, 2025
The
marine
industry,
being
the
backbone
of
world
trade,
is
under
tremendous
pressure
to
reduce
its
environmental
impact,
mainly
driven
by
reliance
on
fossil
fuels
and
significant
greenhouse
gas
emissions.
This
paper
looks
at
hydrogen
as
a
transformative
energy
vector
for
maritime
logistics.
It
delves
into
methods
production,
innovative
propulsion
technologies,
advantages
adopting
hydrogen.
analysis
extends
economic
feasibility
this
transition
undertakes
comparative
evaluation
with
other
alternative
emphasize
distinct
strengths
weaknesses
Furthermore,
based
case
studies
pilot
projects,
study
elaborates
how
can
be
used
in
real-world
contexts,
concluding
that
combination
ammonia
green
hybrid
systems
presents
increased
flexibility,
serving
primary
fuel
while
enhances
efficiency
powers
auxiliary
systems.
approach
represents
promising
solution
reducing
shipping
sector’s
carbon
footprint,
enabling
industry
achieve
greater
sustainability
maintaining
scalability
essential
global
trade.
Overall,
work
bridges
gap
between
theoretical
concepts
actionable
solutions,
therefore
offering
valuable
insights
decarbonization
sector
achieving
goals.
Journal of Cleaner Production,
Journal Year:
2023,
Volume and Issue:
423, P. 138653 - 138653
Published: Sept. 4, 2023
Coastal
regions
have
abundant
off-shore
wind
energy
resources,
and
surrounding
areas
large-scale
liquefied
natural
gas
(LNG)
receiving
stations.
From
the
engineering
perspectives,
there
are
limitations
in
unstable
fluctuating
LNG
loads.
This
article
offers
a
new
scheme
to
combine
these
2
units,
which
uses
surplus
produce
hydrogen,
use
cold
liquefy
store
hydrogen.
In
addition,
order
improve
efficiency
of
utilizing
energy,
reduce
electricity
consumption
for
liquid
hydrogen
(LH2)
production
at
coastal
regions,
this
introduces
air
storage
(LAES)
technology
as
intermediate
stage,
can
stably
from
gasification.
A
LNG-LAES-LH2
hybrid
LH2
is
built.
The
case
study
based
on
real
station
Hainan
province,
China,
presents
design
production/liquefaction
process,
carries
out
optimizations
key
nodes,
proves
feasibility
using
specific
exergy
analysis.
100
MW
system,
round-trip
71.0%
0.189
kWh/kg,
7.87
kWh/kg
46.44%.
Meanwhile,
corresponding
techno-economic
model
built,
system
with
daily
140.4
tons,
shortest
dynamic
payback
period
9.56
years.
Overall,
novel
green
more
efficient
economical
method,
also
make
full
energy.
Multiscale and Multidisciplinary Modeling Experiments and Design,
Journal Year:
2024,
Volume and Issue:
7(4), P. 3153 - 3172
Published: May 27, 2024
Abstract
The
urgent
need
for
sustainable
energy
solutions
in
light
of
escalating
global
demands
and
environmental
concerns
has
brought
hydrogen
to
the
forefront
as
a
promising
renewable
resource.
This
study
provides
comprehensive
analysis
technologies
essential
production
operation
fuel
cell
vehicles,
which
are
emerging
viable
alternative
traditional
combustion
engine
vehicles.
It
examines
various
types,
storage
methods,
refueling
logistics,
role
batteries
paper
also
explores
potential
impact
advancements
artificial
intelligence
quantum
computing
on
development
A
assessment
reveals
that
South
Korea
(19,270)
United
States
(12,283)
leading
adoption
fuel-cell
particularly
passenger
car
segment
(82%),
followed
by
buses
(9.2%)
trucks
(8.7%).
highlights
challenges
hindering
vehicle
implementation,
such
consistent
investment
collaboration
among
industry
stakeholders
promote
transportation
systems.
underscores
practicality
exemplified
models
like
Toyota
Mirai
Hyundai
Nexo,
offer
significant
driving
ranges
demonstrate
integration
advanced
technologies.
discusses
benefits
including
their
ability
operate
with
zero
emissions
when
paired
sources.
Graphical
