Sustainability,
Journal Year:
2024,
Volume and Issue:
16(10), P. 4056 - 4056
Published: May 13, 2024
This
study
addresses
the
co-pyrogasification
of
municipal
solid
waste
(MSW)
from
Environmental
Technology
Park,
San
Juan,
Argentina.
process
involves
heating
at
high
temperatures
in
a
low-oxygen
or
oxygen-free
atmosphere
as
sustainable
strategy
for
management
and
energy
generation.
The
principal
objective
is
to
focus
on
understanding
MSW
kinetics
enhance
performance
reactor
design.
A
representative
sample
collected
over
month
was
analyzed,
focusing
variation
mass
proportions
plastic,
organic
matter,
paper.
empirical
methodology
included
deconvolution
macro-TGA
curves
deep
learning
algorithms
predict
validate
macro-TG
data
during
co-pyrogasification.
findings
reveal
that
matrix
more
easily
treated
thermochemical
platforms,
with
kinetic
thermodynamic
parameters
favoring
its
processing.
approach
suggests
may
represent
feasible
alternative
resource
recovery
bioenergy
production,
supporting
policies
transition
cleaner
future
circular
economy.
Energy & Fuels,
Journal Year:
2023,
Volume and Issue:
37(7), P. 4769 - 4790
Published: March 9, 2023
Pyrolysis
is
one
of
the
substantial
thermal
conversion
technologies
for
high-value
reutilization
biomass
and
organic
solid
waste
(OSW).
Adding
some
typical
OSWs
to
pyrolysis
can
achieve
directional
regulation
target
products
that
are
considered
potential
alternatives
fossil
energy.
Understanding
copyrolysis
behaviors
vital
optimizing
process
minimize
environmental
pollution
efficiently
utilize
OSW.
However,
there
no
overall
review
on
various
OSWs.
This
paper
reviews
discusses
recent
advances
in
mechanism,
thermal–chemical
processes
biomass,
effects
chemical
compositions
raw
materials
parameters
behaviors,
synergistic
effect,
product
characteristics.
Recent
reports
show
effect
effectively
improves
quality
bio-oil
biochar.
Moreover,
adding
OSW
promote
secondary
reaction
intermediates.
The
mechanism
relative
numerical
simulation
work
summarized.
Finally,
current
challenges
energy-
environment-oriented
discussed,
perspectives
further
developing
highlighted.
provides
valuable
information
sustainable
improving
efficiency
selectivity
recycled
Energies,
Journal Year:
2024,
Volume and Issue:
17(22), P. 5736 - 5736
Published: Nov. 16, 2024
This
paper
explores
the
advantages
of
co-pyrolysis
municipal
sewage
sludge
with
agricultural
and
forestry
biomass,
emphasizing
its
potential
for
environmental
economic
benefits.
Co-pyrolysis
lignocellulosic
biomass
significantly
enhances
biochar
quality,
reduces
heavy
metal
content,
increases
porosity,
improves
nutrient
retention,
which
are
essential
soil
applications.
The
produced
through
demonstrates
enhanced
stability
a
lower
oxygen-to-carbon
(O/C)
ratio,
making
it
more
suitable
long-term
carbon
(C)
sequestration
pollutant
adsorption.
Additionally,
generates
bio-oil
syngas
improved
calorific
value,
contributing
to
renewable
energy
recovery
from
sludge.
synergistic
process
also
addresses
waste
management
challenges
by
reducing
harmful
emissions
immobilizing
metals,
thus
mitigating
risks
associated
disposal.
covers
key
sections
on
properties
materials,
improvements
in
quality
products,
benefits
co-pyrolysis,
such
as
reduction
immobilization.
highlights
trends
technology,
aiming
optimize
parameters
maximizing
yield
while
aligning
sustainability
circular
economy
goals.
concludes
recommendations
optimizing
processes
scaling
applications
support
sustainable
management.
Overall,
represents
approach
valorizing
sludge,
transforming
into
valuable
resources
supporting
conservation.
