The Chemical Record,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Dec. 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.
MRS Energy & Sustainability,
Journal Year:
2022,
Volume and Issue:
9(2), P. 212 - 247
Published: Sept. 1, 2022
Abstract
Metals
and
alloys
are
among
the
most
technologically
important
materials
for
our
industrialized
societies.
They
common
structural
used
in
cars,
airplanes
buildings,
constitute
technological
core
of
electronic
devices.
allow
transportation
energy
over
great
distances
exploited
critical
parts
renewable
technologies.
Even
though
primary
metal
production
industries
mature
operate
optimized
pyrometallurgical
processes,
they
extensively
rely
on
cheap
abundant
carbonaceous
reactants
(fossil
fuels,
coke),
require
high
power
heating
units
(which
also
typically
powered
by
fossil
fuels)
to
calcine,
roast,
smelt
refine,
generate
many
output
streams
with
residual
content.
Many
unit
operations
hazardous
gaseous
species
top
large
CO
2
emissions
which
gas-scrubbing
capture
strategies
future.
Therefore,
there
still
opportunities
lower
environmental
footprint
key
operations.
This
paper
explores
possibility
use
greener
such
as
bio-fuels,
bio-char,
hydrogen
ammonia
different
units.
It
identifies
all
recycled
that
available
(such
steel
aluminum
scraps,
waste
Li-ion
batteries)
well
challenges
associated
their
integration
processes.
A
complete
discussion
about
alternatives
carbon-based
reduction
is
constructed
around
hydrogen,
metallo-reduction
inert
anode
electrometallurgy.
The
review
work
completed
an
overview
approaches
energies
valorize
heat
Finally,
mitigate
impacts
utilization
storage
gas
scrubbing
technologies
detailed.
original
brings
together
first
time
potential
efforts
could
be
deployed
future
decrease
industry.
primarily
intended
favour
collaborative
establish
synergies
between
academia,
industry,
decision-makers
equipment
providers.
Graphical
abstract
Highlights
more
sustainable
metals
using
reactants,
green
electricity
or
carbon
possible
sometimes
already
underway.
More
investments
pressure
required
hasten
change.
Discussion
Is
enough
meet
set
climate
targets?
greenhouse
existing
facilities
can
often
partly
mitigated
retrofitting
them
technologies,
should
we
close
plants
prematurely
build
new
technologies?
Since
resources
presently
have
limited
availability,
sector
maximize
benefits?
Renewable and Sustainable Energy Reviews,
Journal Year:
2023,
Volume and Issue:
191, P. 114149 - 114149
Published: Nov. 27, 2023
Transportation
of
CO2
is
essential
for
multiple
applications
in
Carbon
Capture,
Utilisation
and
Storage
(CCUS),
e.g.,
utilisation
methanol
production,
enhanced
oil
recovery,
or
permanent
storage.
Currently,
the
CCUS
industry
still
its
fancy,
transportation
regulation
defined
from
project
to
project,
where
existing
quality
specifications
are
tailored
specific
storage
site.
It
estimated
that
accounts
∼25%
total
costs
a
commercialisation
cannot
be
achieved
with
an
infrastructure
high-grade
steel
together
high
purity
CO2.
The
current
based
on
point-to-point
transport,
it
believed
will
challenging
upscale
without
common
standard.
This
leaves
knowledge
gap
design,
operation,
investment
transportation.
study
includes
evaluation
challenges
halt
progression
survey
literature.
Analysing
benefit
establishing
international
standard
become
global
industry.
A
detailed
description
initiative
policies
within
along
associated
designing
infrastructure,
which
arises
when
chemical
reactions
form
corrosive
scaling
compounds.
As
result,
this
proposes
future
action
plan
make
transport
more
feasible
by
forming
specification
material
selection
quality.
Engineering Science & Technology Journal,
Journal Year:
2024,
Volume and Issue:
5(4), P. 1184 - 1202
Published: April 7, 2024
The
exploration
and
extraction
of
onshore
gas
resources
play
a
pivotal
role
in
meeting
global
energy
demands.
However,
traditional
practices
often
come
at
significant
environmental
cost,
particularly
terms
carbon
emissions.
In
response
to
growing
concerns
about
climate
change
degradation,
there
is
an
urgent
need
for
sustainable
strategies
that
incorporate
capture
technologies
into
processes.
This
paper
aims
explore
various
can
be
implemented
exploration,
focusing
on
the
integration
ensure
compliance.
Through
comprehensive
review
existing
literature
case
studies,
this
identifies
key
challenges
opportunities
implementing
exploration.
Furthermore,
it
examines
economic,
technical,
regulatory
aspects
incorporating
operations.
also
discusses
potential
synergies
between
other
practices,
such
as
methane
reduction
ecosystem
restoration.
Ultimately,
provides
insights
how
transition
towards
more
environmentally
responsible
industry,
while
still
demands.
Keywords:
Onshore
Gas
Exploration,
Carbon
Capture,
Environmental
Compliance,
Sustainable
Strategies,
Climate
Change
Mitigation,
Techno-Economic
Analysis.
Molecules,
Journal Year:
2025,
Volume and Issue:
30(3), P. 563 - 563
Published: Jan. 26, 2025
The
greenhouse
effect
and
global
warming,
driven
by
the
accumulation
of
pollutants,
such
as
sulfur
oxides
(SOx),
nitrogen
(NOx),
CO2,
are
primarily
caused
combustion
fossil
fuels
volcanic
eruptions.
These
phenomena
represent
an
international
crisis
that
negatively
impacts
human
health
environment.
Several
studies
have
reported
novel
carbon
capture,
utilization,
storage
(CCUS)
technologies,
promising
solutions.
Notable
methods
include
chemical
absorption
using
solvents,
development
functionalized
porous
materials,
MCM-41,
impregnated
with
amines
like
polyethyleneimine.
technologies
demonstrated
high
capture
capacity
thermal
stability;
however,
they
face
challenges
related
to
recyclability
operating
costs.
In
parallel,
biodegradable
polymers
hydrogels
present
sustainable
alternatives
a
lower
environmental
impact,
although
their
industrial
scalability
remains
limited.
This
review
comprehensively
analyzes
CO2
methods,
focusing
on
silica-based
supports,
polymers,
hydrogels,
emerging
techniques,
CCUS
MOFs,
while
including
traditional
bibliometric
analysis
update
field’s
scientific
dynamics.
With
increasing
investigations
focused
developing
new
this
study
highlights
growing
interest
in
eco-friendly
alternatives.
A
903
articles
published
between
2010
2024
provides
overview
current
research
environmentally
friendly
technologies.
Countries
United
States,
Kingdom,
India
leading
efforts
field,
emphasizing
importance
collaboration.
Despite
these
advancements,
implementing
sectors
gas
emissions
scarce.
underscores
need
for
public
policies
financing
promote
application
sectors.
Future
should
prioritize
materials
capacity,
efficient
transformation,
valorization
promoting
circular
economy
approaches
decarbonizing
challenging
sectors,
energy
transportation.
Integrating
optimization,
strategies
is
essential
position
key
tools
fight
against
climate
change.
