Polymers,
Journal Year:
2024,
Volume and Issue:
16(21), P. 2998 - 2998
Published: Oct. 25, 2024
Thin-film
composite
(TFC)
membranes
containing
various
fillers
and
additives
present
an
effective
alternative
to
conventional
dense
polymer
membranes,
which
often
suffer
from
low
permeance
(flux)
the
permeability-selectivity
tradeoff.
Alongside
development
utilization
of
numerous
new
polymers
over
past
few
decades,
diverse
such
as
metal-organic
frameworks
(MOFs),
graphene
oxides
(GOs),
ionic
liquids
(ILs)
have
been
integrated
into
matrix
enhance
performance.
However,
achieving
desirable
interfacial
compatibility
between
these
host
matrix,
particularly
in
TFC
structures,
remains
a
significant
challenge.
This
review
discusses
recent
advancements
for
CO
Eng—Advances in Engineering,
Journal Year:
2024,
Volume and Issue:
5(3), P. 1298 - 1336
Published: July 4, 2024
Carbon
dioxide
(CO2),
as
the
primary
greenhouse
gas,
has
significant
impacts
on
global
climate
change,
leading
to
severe
and
irreversible
adverse
consequences
for
ecosystems
human
environments.
To
address
issue
of
excessive
CO2
emissions,
efforts
in
recent
years
have
yielded
progress
development
clean
energy
sources
promotion
carbon
capture,
utilization,
storage
(CCUS)
technologies.
Conventional
capture
techniques
are
limited
addressing
atmospheric
excess
effectively,
they
target
only
high-concentration
emissions
require
implementation
at
specific
emission
points.
Direct
air
(DAC)
technology
emerged
a
promising
solution
due
its
flexibility
deployment,
avoidance
land
competition,
ability
legacy
emissions.
Additionally,
DAC
offers
opportunities
producing
synthetic
fuels,
thereby
reducing
reliance
traditional
fossil
fuels
aiding
gas
This
study
provides
comprehensive
review
technology,
encompassing
principles,
technological
advancements,
real-world
applications,
challenges,
future
research
directions.
By
offering
insights
into
current
state
potential
this
aims
guide
scaling
up
ultimately
contributing
achieving
neutrality
or
even
negative
Energies,
Journal Year:
2025,
Volume and Issue:
18(3), P. 739 - 739
Published: Feb. 6, 2025
Carbon
Capture,
Utilization
and
Storage
(CCUS)
technology
is
recognized
as
a
pivotal
strategy
to
mitigate
global
climate
change.
The
CO2
storage
enhanced
oil
recovery
(CCUS-EOR)
not
only
enhances
rates
but
also
contributes
significant
reductions
in
emissions,
with
social
economic
benefits.
This
paper
examines
the
application
of
CO2-EOR
both
enhancing
facilitating
geological
storage,
analyzes
its
implementation
status
differences
United
States
China.
Through
experimental
investigations
conducted
specific
oilfield,
we
analyze
effects
dissolved
on
viscosity–temperature
characteristics,
yield
value
under
pressure,
stability,
rheological
properties
crude
produced
fluids.
Additionally,
assess
demulsification
effectiveness
various
demulsifiers.
Our
findings
indicate
that
emulsions
exhibit
non-Newtonian
fluid
behavior
characterized
by
shear
thinning,
viscosity
decreases
increase
temperature
pressure.
Furthermore,
presence
exacerbates
oil–water
separation
phenomenon
fluids,
thereby
diminishing
emulsion
stability.
concentration
emulsification
are
conducive
improving
rate.
These
research
results
provide
critical
insights
for
pipeline
design
pump
selection
oilfield
production
processes.
Sustainability,
Journal Year:
2024,
Volume and Issue:
16(22), P. 10132 - 10132
Published: Nov. 20, 2024
Due
to
carbon
dioxide
(CO2)
levels,
driven
by
our
reliance
on
fossil
fuels
and
deforestation,
the
challenge
of
global
warming
looms
ever
larger.
The
need
keep
temperature
rise
below
1.5
°C
has
never
been
more
pressing,
pushing
us
toward
innovative
solutions.
Enter
capture,
utilization,
storage
(CCUS)
technologies,
frontline
defense
in
fight
against
climate
change.
Imagine
a
world
where
CO2,
once
harbinger
environmental
doom,
is
transformed
into
tool
for
healing.
This
review
takes
you
journey
through
realm
CCUS,
revealing
how
these
technologies
capture
CO2
from
very
sources
industrial
power
activities,
repurpose
it,
lock
it
away
geological
vaults.
We
explore
various
methods
capture—post-combustion,
oxy-fuel
combustion,
membrane
separation—each
with
their
own
strengths
challenges.
But
not
just
about
science;
economics
play
crucial
role.
costs
capturing,
transporting,
storing
are
substantial,
but
they
come
promise
burgeoning
market
CO2-derived
products.
delve
financial
aspects
look
at
captured
can
be
repurposed
enhanced
oil
recovery,
chemical
manufacturing,
mineralization,
turning
waste
worth.
also
examine
landscape
commercial-scale
CCS
projects,
highlighting
both
strides
regional
nuances
implementation.
As
we
navigate
advancements,
spotlight
potential
Artificial
Intelligence
(AI)
revolutionize
CCUS
processes,
making
them
efficient
cost-effective.
In
this
sweeping
review,
underscore
pivotal
role
strategy
decarbonize
forge
path
sustainable
future.
Join
as
uncover
innovation,
supportive
policies,
public
acceptance
paving
way
cleaner,
greener
world.
Energy Geoscience,
Journal Year:
2024,
Volume and Issue:
5(4), P. 100335 - 100335
Published: Aug. 3, 2024
As
part
of
its
climate
action
policy,
Indonesia
prioritizes
the
development
carbon
capture,
utilization,
and
storage
(CCUS)
facilities.
Recognizing
necessity
reducing
emissions,
is
aggressively
implementing
novel
capture
(CCS)
technology.
This
paper
gives
a
detailed
assessment
Indonesia's
CCS
potential,
covering
CO2
emission
profiles,
capabilities,
active
projects,
economic
feasibility,
policy
frameworks.
plans
to
cut
emissions
by
29%
2030
reach
net
zero
2050.
With
15
CCUS
projects
set
begin
2026,
government
making
tremendous
progress
toward
targets.
The
concept
includes
pilot
feasibility
studies,
phased
adoption
using
existing
oil
gas
infrastructure.
Initiatives
such
as
Tangguh
CO2-EGR
Gundih
show
how
smaller-scale
may
pave
way
for
larger
ones.
Economic
cost
assessments
that
natural
processing
plants
producing
high-purity
are
most
cost-effective
CCUS.
Regulatory
developments,
MEMR
February
2023
Presidential
Order
No.14/2024,
highlight
importance
supporting
policies
in
promoting
local
international
collaboration.
Despite
advances,
there
still
gaps
long-term
performance
data,
risk
assessments,
consequences
industries
iron,
steel,
cement,
chemicals.
Future
studies
should
fill
these
concentrating
on
environmental
implications,
viability
across
several
industries,
legal
financial
obligations,
integration
with
renewable
energy
sources,
socioeconomic
repercussions.
Collaborative
efforts
among
government,
business,
academia
will
be
critical
effective
deployment
technology
following
goals.
Processes,
Journal Year:
2025,
Volume and Issue:
13(1), P. 92 - 92
Published: Jan. 2, 2025
In
energy
conservation
and
low-carbon
environmental
protection,
separating
capturing
CO2
from
blast
furnace
gas
is
a
crucial
strategy
for
the
steel
industry
to
achieve
its
dual
carbon
goals.
This
study
conducts
an
experimental
on
phase
change
absorption
of
dioxide
low-energy
capture
in
iron
enterprises.
The
experiment
used
30%wt
monoethanolamine
(MEA)
1-(2-aminoethyl)piperazine
(AEP)
as
reference
blend
different
absorbents,
effect
absorbents
was
tested.
results
indicated
that
MEA
system
have
best
when
mass
ratio
additives
water
5:5,
AEP
has
at
7:3.
separators
follows:
n-propanol
>
sulfolane
isopropanol.
AEP/n-propanol/H2O
(7:3)
maximum
load
2.03
molCO2·mol−1
amine,
relatively
low
rich
0.46,
regeneration
consumption.
capacity
calculated
based
results,
it
found
loading
greater
than
system,
with
MEA/n-propanol/H2O
(5:5)
being
4.02
mol/L.
Different
types
exhibited
increase
density
additive
quality.
performance
absorbent
temperature
393.15
K,
desorption
aqueous
solution
high,
speed
fastest.
Sustainability,
Journal Year:
2025,
Volume and Issue:
17(2), P. 418 - 418
Published: Jan. 8, 2025
Integrating
coal-to-hydrogen
production
with
Carbon
Capture,
Utilization,
and
Storage
(CCUS)
is
essential
for
reducing
greenhouse
gas
emissions
facilitating
a
shift
towards
more
sustainable
energy
paradigm.
This
paper
explores
the
diffusion
of
CCUS
technology
within
sector
against
dynamic
backdrop
carbon
trading
market.
An
evolutionary
game-theoretic
approach
utilized
small-world
network
framework
to
analyze
spread
among
enterprises.
The
simulation
reveals
that
current
market
dynamics,
along
technological,
market,
policy-related
uncertainties,
do
not
robustly
encourage
adoption
CCUS.
As
continues
mature,
prices
become
significant
factor
influencing
in
processes.
Furthermore,
investment
costs,
hydrogen
prices,
governmental
policies
are
identified
as
pivotal
elements
propagation
technology.
study
contributes
valuable
insights
into
development
industry
broader
implications
low-carbon
transition
strategies.