Hydrogen,
Год журнала:
2024,
Номер
5(4), С. 737 - 760
Опубликована: Окт. 17, 2024
Geological
hydrogen
storage,
seen
as
a
viable
solution
for
addressing
energy
demands
and
mitigating
the
intermittency
of
wind
power,
is
gaining
recognition.
At
present,
there
are
no
specific
studies
that
estimate
storage
capacity
potential
integration
in
North
Dakota
despite
state’s
enormous
resources
capabilities.
The
study’s
key
innovation
lies
repurposing
region
historically
associated
with
oil
gas
sustainable
thereby
sources.
Moreover,
innovative
aspect
this
study
involves
field
selection,
site
screening,
characterization,
mathematical
modeling
to
simulate
wind–hydrogen
production
geological
system.
A
15
MW
farm,
using
real-world
data
from
General
Electric
turbines,
employed
assess
capacities
within
Middle
Bakken
formation.
reveals
substantial
potentials
wells
W24814,
W19693,
W26990,
54,000,
33,000,
22,000
tons,
respectively.
These
translate
capabilities
1080,
660,
440
GWh,
minimum
durations
140,
80,
57
days,
respectively,
under
60%
system
efficiency.
By
pioneering
traditionally
dominated
by
fossil
fuel
extraction,
research
could
play
crucial
role
advancing
Dakota’s
transition,
providing
blueprint
similar
initiatives
globally.
SAE technical papers on CD-ROM/SAE technical paper series,
Год журнала:
2025,
Номер
1
Опубликована: Янв. 31, 2025
<div
class="section
abstract"><div
class="htmlview
paragraph">Methanol,
with
its
abundant
production,
mature
synthesis
process,
well-established
storage
and
transportation
infrastructure,
no
need
to
return
the
dehydrogenated
product,
is
considered
be
an
ideal
hydrogen
carrier,
expected
play
a
great
role
in
energy
transition
of
sector
construction
system.
This
paper
focuses
on
supply
system
using
methanol
as
briefly
introduces
basics
production
transportation,
then
different
routes
infrastructure
vehicles
from
perspectives
technology,
economy,
safety,
commercialization
process.
Finally,
impacts
introducing
are
compared
analyzed,
elaborated.</div></div>
Deleted Journal,
Год журнала:
2025,
Номер
3(2), С. 233 - 260
Опубликована: Март 27, 2025
This
review
explores
the
transformative
potential
of
green
hydrogen
as
a
key
solution
in
global
shift
toward
sustainable
energy.
By
using
renewable
energy
sources
to
power
water
electrolysis,
provides
carbon-neutral
alternative
fossil
fuels,
effectively
addressing
environmental
concerns
and
growing
demand
for
clean
The
delves
into
techno-economic
analysis
production,
focusing
specifically
on
geographical
technological
factors
influencing
systems'
cost,
feasibility,
scalability.
Critical
such
accessibility
local
resources,
infrastructure
development,
spatial
planning,
impact
policy
regulatory
frameworks
are
explored,
along
with
effectiveness
current
production
technologies.
Additionally,
article
highlights
economic
implications
several
methods,
including
alkaline
electrolysis
(AE),
proton
exchange
membrane
(PEM)
solid
oxide
(SOE),
which
vary
terms
efficiency,
Generally,
this
comparative
cost
across
nations
indicates
substantial
regional
variances,
influenced
by
resource
distribution,
infrastructure,
readiness,
or
frameworks,
availability
technology.
emphasizes
need
cohesive
bolster
economy,
promoting
subsidies,
tax
incentives,
international
cooperation
enhance
investment
fair
allocation.
offers
practical
insights
policymakers
industry
stakeholders
difficulties
associated
intending
optimize
systems
improve
their
scalability
future.
Hydrogen
produced
from
renewable
energy
is
being
promoted
to
decarbonise
global
systems.
To
support
this
transition,
standards,
certification,
and
labelling
(SCLs)
aim
differentiate
hydrogen
products
based
on
their
system-wide
carbon
emission
method
of
production
characteristics.
However,
certified
as
low-carbon,
clean
or
green
does
not
guarantee
broader
sustainability
across
economic,
environmental,
social
governance
dimensions.
Through
an
international
survey
energy-sector
professionals
(n
=
179),
we
investigate
the
opportunities
challenges
associated
with
scaling
up
desirable
features
for
SCLs.
Our
mixed-method
study
revealed
general
accord
feasible
inclusion
diverse
criteria
in
Within
confines
data,
some
differences
viewpoints
emerged
respondents'
geographical
supply
chain
locations
which
were
sharing
costs
benefits.
Moreover,
although
respondents
keen
highlight
attraction
SCL
harmonisation,
was
weighed
against
risks
duplication,
complicating
administrative
procedures,
contradicting
regulation.
The
implications
research
centre
need
national
policy
integration
via
inclusive
forms
multi-stakeholder
governance.
Sustainability,
Год журнала:
2024,
Номер
16(12), С. 4981 - 4981
Опубликована: Июнь 11, 2024
Currently,
the
global
energy
structure
is
undergoing
a
transition
from
fossil
fuels
to
renewable
sources,
with
hydrogen
economy
playing
pivotal
role.
Hydrogen
not
only
an
important
carrier
needed
achieve
goal
of
conservation
and
emission
reduction,
it
represents
key
object
future
international
trade.
As
trade
expands,
nations
are
increasingly
allocating
resources
enhance
competitiveness
their
respective
industries.
This
paper
introduces
index
that
can
be
used
evaluate
elucidate
most
competitive
countries
in
To
calculate
scores
seven
major
prospective
market
participants,
we
employed
entropy
weight
method.
method
considers
five
essential
factors:
potential
resources,
economic
financial
base,
infrastructure,
government
support
institutional
environment,
technological
feasibility.
The
results
indicate
USA
Australia
exhibit
highest
composite
indices.
These
findings
serve
as
guide
for
formulating
suitable
policies
strategies
bolster
development
Hydrogen,
Год журнала:
2024,
Номер
5(4), С. 737 - 760
Опубликована: Окт. 17, 2024
Geological
hydrogen
storage,
seen
as
a
viable
solution
for
addressing
energy
demands
and
mitigating
the
intermittency
of
wind
power,
is
gaining
recognition.
At
present,
there
are
no
specific
studies
that
estimate
storage
capacity
potential
integration
in
North
Dakota
despite
state’s
enormous
resources
capabilities.
The
study’s
key
innovation
lies
repurposing
region
historically
associated
with
oil
gas
sustainable
thereby
sources.
Moreover,
innovative
aspect
this
study
involves
field
selection,
site
screening,
characterization,
mathematical
modeling
to
simulate
wind–hydrogen
production
geological
system.
A
15
MW
farm,
using
real-world
data
from
General
Electric
turbines,
employed
assess
capacities
within
Middle
Bakken
formation.
reveals
substantial
potentials
wells
W24814,
W19693,
W26990,
54,000,
33,000,
22,000
tons,
respectively.
These
translate
capabilities
1080,
660,
440
GWh,
minimum
durations
140,
80,
57
days,
respectively,
under
60%
system
efficiency.
By
pioneering
traditionally
dominated
by
fossil
fuel
extraction,
research
could
play
crucial
role
advancing
Dakota’s
transition,
providing
blueprint
similar
initiatives
globally.