International Journal of Hydrogen Energy,
Journal Year:
2024,
Volume and Issue:
78, P. 202 - 217
Published: June 25, 2024
This
paper
presents
a
thorough
critical
literature
review
aimed
at
understanding
the
challenges
associated
with
freshwater
supply
rapidly
growing
global
hydrogen
economies.
The
has
been
prompted
by
fact
that
production
projected
for
2030
will
create
least
an
additional
demand
of
2.1
billion
cubic
meters
freshwater,
which
needs
to
be
addressed
support
sustainable
development
emerging
key
solutions
explored
this
study
include
seawater
and
wastewater
treatment
methods
large-scale
generation,
along
newly
introduced
technique
direct
seawater-fed
electrolysis.
Prior
research
indicates
desalination
technologies,
including
reverse
osmosis
membrane
distillation,
also
offer
promising
avenues
costs
comparable
other
techniques.
Additionally,
low-temperature
such
as
distillation
could
play
significant
role
in
electrolysis,
underscoring
importance
exploring
waste
recovery
opportunities
within
system
(e.g.,
fuel
cell
heat
recovery).
identifies
gaps
need
overcome
enhance
sustainability
techno-economic
viability
energy
systems.
Sustainability,
Journal Year:
2024,
Volume and Issue:
16(5), P. 1890 - 1890
Published: Feb. 25, 2024
The
overuse
of
fossil
fuels
has
caused
a
serious
energy
crisis
and
environmental
pollution.
Due
to
these
challenges,
the
search
for
alternative
sources
that
can
replace
is
necessary.
Hydrogen
widely
acknowledged
future
carrier
because
its
nonpolluting
properties
high
density.
To
realize
hydrogen
economy
in
future,
it
essential
construct
comprehensive
supply
chain
make
key
carrier.
This
paper
reviews
various
technologies
involved
chain,
encompassing
production,
storage,
transportation,
utilization
technologies.
Then,
challenges
constructing
are
discussed
from
techno-economic,
social,
policy
perspectives,
prospects
development
presented
light
challenges.
Biomass,
Journal Year:
2024,
Volume and Issue:
4(1), P. 132 - 163
Published: March 1, 2024
Fermentation
is
an
oxygen-free
biological
process
that
produces
hydrogen,
a
clean,
renewable
energy
source
with
the
potential
to
power
low-carbon
economy.
Bibliometric
analysis
crucial
in
academic
research
evaluate
scientific
production,
identify
trends
and
contributors,
map
development
of
field,
providing
valuable
information
guide
researchers
promote
innovation.
This
review
provides
advanced
bibliometric
future
perspective
on
fermentation
for
hydrogen
production.
By
searching
WoS,
we
evaluated
refined
62,087
articles
4493
articles.
allowed
us
most
important
journals,
countries,
institutions,
authors
field.
In
addition,
ten
cited
dominant
areas
were
identified.
A
keyword
revealed
five
clusters
illustrate
where
progressing.
The
outlook
indicates
deeper
understanding
microbiology
support
from
policy
will
drive
fermentation.
International Journal of Hydrogen Energy,
Journal Year:
2024,
Volume and Issue:
78, P. 202 - 217
Published: June 25, 2024
This
paper
presents
a
thorough
critical
literature
review
aimed
at
understanding
the
challenges
associated
with
freshwater
supply
rapidly
growing
global
hydrogen
economies.
The
has
been
prompted
by
fact
that
production
projected
for
2030
will
create
least
an
additional
demand
of
2.1
billion
cubic
meters
freshwater,
which
needs
to
be
addressed
support
sustainable
development
emerging
key
solutions
explored
this
study
include
seawater
and
wastewater
treatment
methods
large-scale
generation,
along
newly
introduced
technique
direct
seawater-fed
electrolysis.
Prior
research
indicates
desalination
technologies,
including
reverse
osmosis
membrane
distillation,
also
offer
promising
avenues
costs
comparable
other
techniques.
Additionally,
low-temperature
such
as
distillation
could
play
significant
role
in
electrolysis,
underscoring
importance
exploring
waste
recovery
opportunities
within
system
(e.g.,
fuel
cell
heat
recovery).
identifies
gaps
need
overcome
enhance
sustainability
techno-economic
viability
energy
systems.
