Sustainable Production and Consumption,
Год журнала:
2022,
Номер
33, С. 608 - 635
Опубликована: Июль 5, 2022
Negative
emissions
technologies
(NETs)
are
expected
to
play
a
significant
role
in
mitigating
climate
change.
However,
there
also
concerns
that
large
scale
deployment
of
NETs
may
cause
various
environmental
impacts
due
the
use
land,
water
and
energy
resources.
A
number
studies
have
assessed
performance
NETs;
however,
comprehensive
review
comparing
range
different
is
not
available
literature.
To
address
this
research
gap,
paper
compares
life
cycle
assessment
(LCA)
following
options
for
which
data
were
literature:
bioenergy
with
carbon
capture
storage
(BECCS),
biochar
incorporation
into
soil,
afforestation
reforestation,
soil
sequestration,
building
biomass,
direct
air
(DACCS),
enhanced
weathering
mineral
carbonation.
It
evident
from
these
can
net
negative
GHG
emissions,
ranging
−603
kg
CO2
eq./t
removed
biomass
−1173
soil.
estimates
removal
potentials
vary
widely
among
each
technology
as
well
owing
technological
differences,
methodological
choices
differing
assumptions.
For
example,
global
warming
potential
(GWP)
varies
reviewed
between
positive
impact
1710
GWP
3300
removed,
depending
upon
feedstock,
pyrolysis
assumptions
credits
co-products
co-benefits.
Overall,
used
amendment
has
lowest
per
tonne
followed
by
while
ranks
last.
The
reveals
could
lead
increase
other
impacts.
Especially,
non-bio
(DACCS,
carbonation)
leads
relatively
high
fossil
depletion,
acidification
human
toxicity.
These
be
reduced
if
demand
met
renewables
instead
fuels.
identifies
several
issues
challenges
conducting
LCA
provides
recommendations
them.
Advanced Functional Materials,
Год журнала:
2021,
Номер
32(4)
Опубликована: Окт. 13, 2021
Abstract
Closing
the
carbon‐,
hydrogen‐,
and
nitrogen
cycle
with
renewable
electricity
holds
promises
for
mitigation
of
facing
environment
energy
crisis,
along
continuing
prosperity
human
society.
Descriptors
bridge
gap
between
physicochemical
factors
electrocatalysts
their
boosted
activity
serve
as
guiding
principles
during
rational
design
electrocatalysts.
The
optimal
adsorption
strength
key
intermediates
is
potentially
accessed
under
tendentious
guidelines
proposed
by
indicators,
such
d‐band
center,
Δ
G
H
,
E
O*
coordination
number
(CN),
bond
length,
etc.
Here,
in
this
review,
a
comprehensive
summary
recent
advances
achieved
regarding
descriptors
that
aims
recycling
C/H/N‐containing
chemicals
offered.
review
initiated
providing
necessity
development
efficient
then
physics
behind
center
introduced.
Then
progress
relating
to
guidance
reviewed.
Following
that,
an
extended
discussion
experimental
or
theoretical
characterization
beyond
it
provided.
Finally,
perspectives
challenges
area
are
Energy & Environmental Science,
Год журнала:
2022,
Номер
15(9), С. 3583 - 3602
Опубликована: Янв. 1, 2022
This
work
quantifies
current
and
future
costs
as
well
environmental
burdens
of
large-scale
hydrogen
production
systems
on
geographical
islands,
which
exhibit
high
renewable
energy
potentials
could
act
export
hubs.
Nature Sustainability,
Год журнала:
2023,
Номер
6(5), С. 599 - 610
Опубликована: Март 6, 2023
Abstract
The
rapid
growth
of
plastics
production
exacerbated
the
triple
planetary
crisis
habitat
loss,
plastic
pollution
and
greenhouse
gas
(GHG)
emissions.
Circular
strategies
have
been
proposed
for
to
achieve
net-zero
GHG
However,
implications
such
circular
on
absolute
sustainability
not
examined
a
scale.
This
study
links
bottom-up
model
covering
both
end-of-life
treatment
90%
global
boundaries
framework.
Here
we
show
that
even
circular,
climate-optimal
industry
combining
current
recycling
technologies
with
biomass
utilization
transgresses
thresholds
by
up
four
times.
improving
rates
at
least
75%
in
combination
CO
2
can
lead
scenario
which
comply
their
assigned
safe
operating
space
2030.
Although
being
key
unquantified
effect
novel
entities
biosphere,
enhanced
cannot
cope
demand
predicted
until
2050.
Therefore,
achieving
requires
fundamental
change
our
methods
producing
using
plastics.
Energy & Environmental Science,
Год журнала:
2021,
Номер
14(5), С. 3086 - 3097
Опубликована: Янв. 1, 2021
The
European
technical
potential
for
biogenic
carbon
dioxide
removal
is
assessed
considering
seven
different
BECCS
configurations
that
do
not
require
purpose-grown
bio-energy
plantations.
Renewable and Sustainable Energy Reviews,
Год журнала:
2022,
Номер
157, С. 112123 - 112123
Опубликована: Янв. 20, 2022
Low-carbon
hydrogen
is
an
essential
element
in
the
transition
to
net-zero
emissions
by
2050.
Hydrogen
production
from
biomass
a
promising
bio-energy
with
carbon
capture
and
storage
(BECCS)
scheme
that
could
produce
low-carbon
generate
dioxide
removal
(CDR)
envisioned
be
required
offset
hard-to-abate
emissions.
Here,
we
design
BECCS
supply
chain
for
quantify,
at
high
spatial
resolution,
technical
potential
CDR
Europe.
We
consider
sustainable
feedstocks
have
minimal
impacts
on
food
security
biodiversity,
namely
agricultural
residues
waste.
find
this
can
up
12.5
Mtons
of
H2
per
year
(currently
∼10
are
used
Europe)
remove
133
CO2
atmosphere
(or
3%
European
total
greenhouse
gas
emissions).
then
perform
geospatial
analysis
quantify
transportation
distances
between
where
located
users,
20%
within
25
km
hard-to-electrify
industries.
conclude
chains
represent
overlooked
near-term
opportunity
hydrogen.
One Earth,
Год журнала:
2023,
Номер
6(7), С. 899 - 917
Опубликована: Июль 1, 2023
Carbon
dioxide
removal
(CDR)
is
necessary
to
minimize
the
impact
of
climate
change
by
tackling
hard-to-abate
sectors
and
historical
emissions.
Direct
air
capture
storage
(DACS)
an
important
CDR
technology,
but
it
remains
unclear
when
how
DACS
can
be
economically
viable.
Here,
we
use
a
bottom-up
engineering-economic
model
together
with
top-down
technological
learning
projections
calculate
plant-level
cost
trajectories
for
four
technologies.
Our
analysis
demonstrates
that
costs
these
technologies
plateau
2050
at
around
$100-600
t-CO2-1
mainly
via
capital
reduction
through
aggressive
deployment,
still
exceed
optimistic
targets
defined
countries
such
as
US
(i.e.,
$100
t-CO2-1).
A
further
existing
policy
mechanisms
indicates
strong,
project-catered
support
will
required
create
market
opportunities,
accelerate
scale-up
lower
further.
work
suggests
strategic
deployment
operation
must
coupled
strong
policies
minimise
maximise
opportunity
make
planet-scale
impact.
Environmental Research Letters,
Год журнала:
2023,
Номер
18(6), С. 063002 - 063002
Опубликована: Май 16, 2023
Abstract
Agriculture
accounts
for
12%
of
global
annual
greenhouse
gas
(GHG)
emissions
(7.1
Gt
CO
2
equivalent),
primarily
through
non-CO
emissions,
namely
methane
(54%),
nitrous
oxide
(28%),
and
carbon
dioxide
(18%).
Thus,
agriculture
contributes
significantly
to
climate
change
is
impacted
by
its
consequences.
Here,
we
present
a
review
technologies
innovations
reducing
GHG
in
agriculture.
These
include
decarbonizing
on-farm
energy
use,
adopting
nitrogen
fertilizers
management
technologies,
alternative
rice
cultivation
methods,
feeding
breeding
enteric
methane.
Combined,
all
these
measures
can
reduce
agricultural
up
45%.
However,
residual
3.8
equivalent
per
year
will
require
offsets
from
removal
make
net-zero.
Bioenergy
with
capture
storage
enhanced
rock
weathering
are
particularly
promising
techniques,
as
they
be
implemented
within
result
permanent
sequestration.
While
net-zero
technically
available,
come
price
premium
over
the
status
quo
have
limited
adoption.
Further
research
development
needed
such
more
affordable
scalable
understand
their
synergies
wider
socio-environmental
impacts.
With
support
incentives,
transition
significant
emitter
sink.
This
study
may
serve
blueprint
identify
areas
where
further
investments
accelerate
