Highlights of Sustainability,
Journal Year:
2024,
Volume and Issue:
3(2), P. 205 - 239
Published: May 9, 2024
The
atmospheric
carbon
dioxide
(CO2)
accumulation
(2–2.5
ppmv/year)
is
the
result
of
enormous
gap
between
its
emissions
(37
Gton/year)
and
capture,
storage,
utilization
(<500
Mton/year).
Climate
has
been
dramatically
affected
due
to
failure
natural
sinks,
in
working
effectively.
To
address
this
Gton-scale
gap,
numerous
uses
applications
are
needed
particularly,
those
consuming
vast
volumes
compound
and/or
rendering
longevous
products
or
long
lifecycle
services.
Thus,
(CU)
can
be
seen
as
step
close
cycle.
Among
CU,
R&D
on
CO2
chemical
conversion
proposed
a
variety
processes,
with
different
degrees
developmental
maturity.
These
process
technologies
could
efficiently
effectively
integrated
into
refineries
upgrade
emitted
CO2.
A
technology
pipeline
consisting
database
these
processes
market
status
should
defined
based
published
scientific
results
patents.
Then,
an
innovative
top-down
methodology
eco-design
configurations
that
refinery,
warrant
sustainable
cycle
(in
terms
energy,
environment,
economy)
change
ways
producing
fuels,
chemicals,
materials.
Additionally,
used
identify
research
development
gaps
needs,
for
orienting
science
investments
measures.
Hopefully,
will
implemented
circular
C-based
economy
underpin
decarbonized
industry.
Catalysis Reviews,
Journal Year:
2023,
Volume and Issue:
unknown, P. 1 - 99
Published: May 27, 2023
ABSTRACTABSTRACTThe
dry
reforming
reaction
(DRM)
had
capacity
to
mitigate
the
greenhouse
gases
from
environment
as
well
produce
syngas
a
chemical
feedstock.
Various
doped
metal
oxides,
supported
catalysts
and
promoted
catalyst
system
over
different
profound
activity
toward
this
specific
reaction.
Herein,
sequential
review
on
DRM
is
presented
which
covers
most
of
excellent
conceptual
work
field
last
two
decades.
The
8
active
metals
i.e.
Fe,
Co,
Ni,
Ru,
Rh,
Pd,
Ir,
Pt
dispersed
12
support
activated
carbon
or
Char,
MgO,
CeO2,
La2O3,
Y2O3,
TiO2,
Si2O3,
Al2O3,
ZrO2,
SiC
BN,
Clay
for
Further
under
each
support,
deep
literature
long
range
promotors
(total
35)
belonging
groups
periodic
tables
elaborated.
At
end,
brief
about
state-of-the-art
possible
industrial
potent
future
research
portfolio
catalytic
advancement
are
presented.GRAPHICAL
ABSTRACTKEYWORDS:
review12
support35
promotors8
metalsperiodic
AcknowledgmentsThe
authors
would
like
extend
their
sincere
appreciation
Researchers
Supporting
Project
number
(RSP2023R368),
King
Saud
University,
Riyadh,
Saudi
Arabia.
N
P
R
K
acknowledge
Indus
University
supporting
research.Disclosure
statementNo
potential
conflict
interest
was
reported
by
author(s).
Catalysis Science & Technology,
Journal Year:
2024,
Volume and Issue:
14(7), P. 1712 - 1729
Published: Jan. 1, 2024
The
achievements
of
dry
reforming
methane
over
Ni-based
catalysts
are
presented
with
focus
on
the
modification
factors
to
enhance
sintering
and
coking
resistance,
elaborated
in
context
support,
promoter,
preparation.
Catalysts,
Journal Year:
2024,
Volume and Issue:
14(3), P. 176 - 176
Published: March 1, 2024
The
dry
reforming
of
methane
(DRM)
is
a
promising
method
for
controlling
greenhouse
gas
emissions
by
converting
CO2
and
CH4
into
syngas,
mixture
CO
H2.
Ni-based
catalysts
have
been
intensively
investigated
their
use
in
the
DRM.
However,
they
are
limited
formation
carbonaceous
materials
on
surfaces.
In
this
review,
we
explore
carbon-induced
catalyst
deactivation
mechanisms
summarize
recent
research
progress
mitigating
carbon
deposition
developing
coke-resistant
catalysts.
This
review
emphasizes
significance
support,
alloy,
structural
strategies,
importance
comprehending
interactions
between
components
to
achieve
improved
catalytic
performance
stability.
Energy & Fuels,
Journal Year:
2023,
Volume and Issue:
37(7), P. 4878 - 4897
Published: March 11, 2023
A
promising
approach
is
to
transform
carbon
dioxide
(CO2)
into
renewable,
high
value-added
products
with
minimal
environmental
impact
and
maximum
efficiency.
Many
problems,
including
energy
shortages
degradation,
are
caused
by
CO2
levels,
but
this
can
help.
Photocatalytic
reduction
methods
a
technology
for
solving
these
problems.
Cerium
(CeO2)
one
of
the
most
important
rare
earth
oxides,
cerium
dioxide-based
photocatalysts
have
gained
lot
attention
in
recent
years
due
their
distinctive
features,
such
as
tunable
electronic
structures
excellent
photocatalytic
performances.
However,
wide
band
oxide
limits
its
utilization
light.
This
review
provides
various
strategies
modification
oxide,
encompassing
external
atom
doping,
heterostructure
fabrication,
defect
crystal
plane
modulation,
improve
catalytic
performance
CeO2.
The
fundamentals
conversion
CeO2-based
also
summarized.
Finally,
challenges
prospects
catalysts
presented.
ACS Omega,
Journal Year:
2023,
Volume and Issue:
8(32), P. 28945 - 28967
Published: Aug. 1, 2023
The
global
initiatives
on
sustainable
and
green
energy
resources
as
well
large
methane
reserves
have
encouraged
more
research
to
convert
hydrogen.
Catalytic
decomposition
of
(CDM)
is
one
optimistic
route
generate
clean
hydrogen
value-added
carbon
without
the
emission
harmful
greenhouse
gases,
typically
known
blue
This
Review
begins
with
an
attempt
understand
fundamentals
a
CDM
process
in
terms
thermodynamics
prerequisite
characteristics
catalyst
materials.
In-depth
understanding
rate-determining
steps
heterogeneous
catalytic
reaction
taking
place
over
surfaces
crucial
for
development
novel
catalysts
conditions
successful
process.
design
state-of-the-art
through
both
computational
experimental
optimizations
need
hour,
it
largely
governs
economy
Recent
mono-
bimetallic
supported
unsupported
materials
used
been
highlighted
classified
based
their
performances
under
specific
conditions,
advantages
limitations.
Metal
oxides
zeolites
shown
interesting
performance
support
Fe-
Ni-based
catalysts,
especially
presence
promoters,
by
developing
strong
metal–support
interactions
or
enhancing
diffusion
rates.
Carbonaceous
exhibit
lower
conversions
metal
active
species
result
formation
amorphous
carbon.
However,
stability
better
than
that
at
higher
temperatures,
overall
depends
operating
properties,
reactor
configurations.
Although
efforts
summarize
state-of-art
reported
literature,
they
lack
systematic
analysis
stable
commercially
appealing
technology.
In
this
work,
are
seen
promising
futuristic
pathways
sustained
H2
production
high
yields
nanomaterials.
influence
source,
particle
size,
surface
area,
sites
activity
templates
has
demonstrated.
Additionally,
deactivation
discussed,
different
regeneration
techniques
evaluated.
studies
theoretical
models
towards
summarized,
future
prospects
recommended.
Journal of CO2 Utilization,
Journal Year:
2023,
Volume and Issue:
75, P. 102564 - 102564
Published: Aug. 10, 2023
We
investigate
atmospheric
pressure
microwave
(MW)
plasma
(2.45
GHz)
conversion
in
CO2
and
CH4
mixtures
(i.e.,
dry
reforming
of
methane,
DRM)
focusing
on
reaction
performance
carbon
formation.
Promising
energy
costs
∼2.8–3.0
eV/molecule
or
∼11.1–11.9
kJ/L
are
amongst
the
best
to
date
considering
current
state-of-the-art
for
plasma-based
DRM
all
types
plasma.
The
is
range
∼46–49%
∼55–67%
CH4,
respectively,
producing
primarily
syngas
H2
CO)
with
H2/CO
ratios
∼0.6–1
at
fractions
ranging
from
30%
45%.
Water
largest
byproduct
levels
∼7–14%
exhaust.
Carbon
particles
visibly
impact
higher
(>
30%),
where
they
become
heated
incandescent.
Particle
luminosity
increases
increasing
fractions,
becoming
unstable
near
a
1:1
mixture
>
45%
CH4).
Electron
microscopy
material
reveals
an
agglomerated
morphology
pure
nanoparticles.
mean
particle
size
determined
as
∼20
nm,
free
any
metal
contamination,
consistent
electrode-less
MW
design.
