The Chemical Record,
Год журнала:
2024,
Номер
unknown
Опубликована: Дек. 4, 2024
Abstract
Carbon
dioxide
(CO
2
)
adsorption
on
solid
sorbents
represents
a
promising
technology
for
separating
carbon
from
different
sources
and
mitigating
anthropogenic
emissions.
The
complete
integration
of
capture
technologies
in
various
industrial
sectors
will
be
crucial
sustainable,
low‐carbon
future.
Despite
developing
new
sorbents,
comprehensive
strategy
is
essential
to
realize
the
full
potential
widespread
adoption
CO
technologies,
including
engineering
aspects.
This
study
discusses
pathway
deploying
adsorption‐based
fundamental
material
science
aspects,
thermo‐physical
properties
behavior
at
molecular
level,
pilot
scale
demonstrations.
When
integrated
with
process
simulation
economic
evaluations,
these
techniques
are
instrumental
enhancing
efficiency
cost‐effectiveness
capturing
processes.
While
advancements
have
been
notable,
their
deployment
still
encounters
significant
hurdles,
technical,
economic,
environmental
challenges.
Leveraging
hybrid
systems,
renewable
energy
integration,
strategic
application
emerging
machine
learning
appear
address
global
warming
effectively
consequently
discussed
this
investigation.
Journal of CO2 Utilization,
Год журнала:
2022,
Номер
68, С. 102355 - 102355
Опубликована: Дек. 21, 2022
With
the
continuous
emission
of
greenhouse
gases,
rational
transformation
and
utilization
CO2
is
particularly
important.
Cyclic
carbonates
are
a
kind
versatile
compounds
have
wide
applications
in
Li-ion
batteries,
pharmaceutical
manufacturing
many
fine
chemicals.
Cycloaddition
epoxide
to
synthesize
cyclic
considered
one
most
promising
conversion
routes
because
its
100%
atomic
economy,
non-toxicity,
as
well
more
economic
technical
route
for
CO2.
In
this
paper,
review
surveys
synthesis
employing
building
block.
The
mechanisms
activation
been
described
detail
due
thermodynamic
stability
molecule.
reaction
mechanism
expounded,
seven
methods
summarized
compared,
deeply
analyzing
research
progress
recent
years.
To
reduce
energy
conversion,
catalysts
very
crucial.
Various
types
suitable
derived
from
expounded
depth.
Finally,
development
trend
prospected.
improved
strongly
demanded
successful
commercialization
technologies.
This
enables
researchers
timely
seize
current
advancements
thus
may
provide
some
rewarding
insights
future
investigations
on
feedstock.
It
will
good
reference
guide
scholars
achieve
better
improvements.
Energy & Fuels,
Год журнала:
2024,
Номер
38(3), С. 1692 - 1712
Опубликована: Янв. 19, 2024
Modern
machine
learning
(ML)
techniques
are
making
inroads
in
every
aspect
of
renewable
energy
for
optimization
and
model
prediction.
The
effective
utilization
ML
the
development
scaling
up
systems
needs
a
high
degree
accountability.
However,
most
approaches
currently
use
termed
black
box
since
their
work
is
difficult
to
comprehend.
Explainable
artificial
intelligence
(XAI)
an
attractive
option
solve
issue
poor
interoperability
black-box
methods.
This
review
investigates
relationship
between
(RE)
XAI.
It
emphasizes
potential
advantages
XAI
improving
performance
efficacy
RE
systems.
realized
that
although
integration
with
has
enormous
alter
how
produced
consumed,
possible
hazards
barriers
remain
be
overcome,
particularly
concerning
transparency,
accountability,
fairness.
Thus,
extensive
research
required
address
societal
ethical
implications
using
create
standardized
data
sets
evaluation
metrics.
In
summary,
this
paper
shows
potential,
perspectives,
opportunities,
challenges
application
system
management
operation
aiming
target
efficient
energy-use
goals
more
sustainable
trustworthy
future.
Energy Advances,
Год журнала:
2022,
Номер
1(9), С. 580 - 605
Опубликована: Янв. 1, 2022
Hydrogen
(H
2
)
production
along
with
CCUS
(carbon
capture,
utilization,
and
storage)
are
two
key
areas
for
transition
to
net-zero
emission.
Carbon-neutral
liquid
e-fuels
produced
from
H
captured
CO
practical
alternatives
fossil
fuels.
Carbon Capture Science & Technology,
Год журнала:
2023,
Номер
7, С. 100102 - 100102
Опубликована: Фев. 17, 2023
Carbon
capture
technologies
will
play
an
essential
role
in
reaching
a
zero-carbon
economy
by
2050,
and
the
industrial
sector
is
one
of
main
areas
which
these
may
be
deployed.
This
work
aims
to
identify
analyze
sectors
that
have
potential
deploy
carbon
globally.
The
initial
methodology
procedure
this
paper
organized
into
three
steps:
(i)
A
systematic
literature
review
conducted
using
Scopus
database;
(ii)
followed
bibliometric
study
and;
(iii)
quantification
all
countries.
processed
data
showed
iron
steel
production
with
highest
number
papers
(13
papers),
cement
manufacturing
(8
papers).
Besides
that,
efficiency
type
technology
deployed
were
also
evaluated.
found
varied
industry
sector,
ethanolamine
(MEA)
or
metil
diethanolamine
(MDEA)
post-combustion
chemical
looping
being
frequently
cited.
As
results,
citations
indicates
production,
manufacturing,
most
advanced
terms
scientific
research
on
deploying
technologies.
In
addition,
countries
demonstrated
greatest
for
are
China
(5,700
mtCO2/y)
United
States
(2,100
mtCO2/y),
India
(1,300
Russia
(807mtCO2/y),
Japan
(564
South
Korea
(403
mtCO2/y).
Carbon Capture Science & Technology,
Год журнала:
2024,
Номер
12, С. 100195 - 100195
Опубликована: Фев. 9, 2024
The
energy
and
industrial
sectors'
most
recent
extraordinarily
quick
expansion
has
resulted
in
a
substantial
rise
stationary
CO2
sources.
As
result,
many
questions
have
been
raised
concerning
how
to
stop
global
warming
implement
methods
mitigate
its
effects
by
2050
create
low-carbon
sustainable
future.
Over
the
last
three
decades,
India's
emissions
increased
at
growth
rate
of
3.1
%
mainly
consumption
fossil
fuels.
In
this
Indian
situation,
best
method,
besides
renewable
sources,
is
Carbon
capture,
utilization,
storage
(CCUS),
which
will
make
it
possible
achieve
net-zero
targets
within
century.
Given
this,
brief
review
discussion
that
aims
study
development
CCUS
deployment
importance
for
were
conducted.
highlights
current
scenario
India
world,
increase
trend,
consequences
globally.
Furthermore,
on
present
status
several
areas
carbon
(CCUS)
technologies
done.
To
clearly
define
maturity
each
important
component
system
with
commercialization
direction
route,
we
focused
determining
technological
readiness
level
(TRL)
from
perspective.
Further,
identified
data
different
sizes
biggest
R&D
schemes,
policies,
regulations
initiatives
taken
government
across
country.
Lastly,
our
seeks
provide
guide
successful
implementation
India.
Industrial & Engineering Chemistry Research,
Год журнала:
2024,
Номер
63(10), С. 4460 - 4477
Опубликована: Март 4, 2024
Carbon
capture,
utilization,
and
storage
(CCUS)
technology
plays
a
crucial
role
in
the
pursuit
of
carbon
neutrality.
To
reduce
cost
neutrality,
it
is
necessary
to
optimally
design
supply
chain
CCUS,
which
leads
mega
scale
problems
for
vast
countries
such
as
China.
In
this
paper,
novel
three-module
framework
including
source-sink
matching,
meshing,
pipeline
transportation
network
allocating,
has
advantage
plant-level
decision
trunk
while
keeping
size
model
solvable,
proposed.
addition,
database
major
CO2
emission
sources
thermal
power,
cement,
iron-steel
sectors
well
sinks
China
set
up.
By
comparison
scenarios
with
without
offshore
storage,
found
be
superior
those
southern
coastal
provinces.
With
distance
not
exceeding
250
km,
around
4.2
Gt
can
captured
stored.
Simultaneously,
establishing
sensible
CCUS
deployment
objectives
crucial.
As
planned
capacity
rises
from
601.8
1203.5
Mt/year,
unit
net
will
elevate
28.5
$/tonCO2
36.0
$/ton,
marking
26%
increase.
Moreover,
evolution
toward
achieving
neutrality
between
2025
2050
analyzed.
Notably,
early
stage
suitable
provinces
northern
China,
other
are
anticipated
engage
subsequent
phases.
The
comparative
study
indicates
that
more
economically
viable
than
introducing
green
power
hydrogen
iron-steel,
cement
reduction.
