Industrial Crops and Products,
Journal Year:
2023,
Volume and Issue:
208, P. 117904 - 117904
Published: Dec. 12, 2023
Cellulose
is
an
organic
compound
belonging
to
polysaccharides.
This
biopolymer
made
of
glucose
subunits.
plays
essential
role
in
the
structure
and
strength
plants.
polymer
has
biodegradable,
biocompatible,
renewable
properties.
Agricultural
wastes
are
excellent
sources
for
cellulose
extraction.
lignocellulosic
materials,
lignin
main
components
these
wastes.
Millions
tons
agricultural
waste
thrown
away
burned
yearly.
large
amount
leads
environmental
pollution
energy
resources.
Upgrading
such
by
developing
innovative
products
as
nanomaterials
nanocomposites
can
have
high
economic
benefits.
The
intelligent
use
a
rich
source
be
primarily
responsible
increase
population
industrialization
countries.
Optimal
extraction
from
widely
used
various
fields
agriculture,
industry,
medicine,
energy.
Different
chemical,
physical,
physicochemical,
biological
methods
been
presented
extract
its
derivatives
waste.
In
this
review,
we
will
discuss
position
importance
cellulose,
extracted
agrarian
sources.
Environmental Chemistry Letters,
Journal Year:
2024,
Volume and Issue:
22(3), P. 1115 - 1154
Published: Feb. 2, 2024
Abstract
The
global
expansion
of
the
bioenergy
industry
raises
concerns,
emphasizing
need
for
careful
evaluation
and
sustainable
management.
To
facilitate
this,
life
cycle
assessments
beyond
greenhouse
gas
emissions
energy
balance
are
essential,
along
with
standardization
assessment
methodologies
to
enable
meaningful
comparisons.
Here,
we
review
assessment,
chemical
aspects,
policy
implication
production.
We
discuss
in
terms
concepts,
methods,
impacts,
gases,
land
use,
water
consumption,
bioethanol,
biodiesel,
biogas,
techno-economic
analysis.
Chemical
aspects
comprise
reaction
processes
means
improve
efficiency.
Concerning
policies,
tools,
frameworks
that
encourage
production
presented.
found
carbon
dioxide
removal
ranges
from
45
99%
various
processes.
also
emphasizes
importance
chemistry
advancing
a
more
secure
future.
Results in Engineering,
Journal Year:
2024,
Volume and Issue:
23, P. 102433 - 102433
Published: June 18, 2024
Biochar,
as
a
carbon-rich
substance
produced
from
the
thermal
decomposition
of
organic
biomass,
is
promising
for
sustainable
environmental
management.
The
production
and
consumption
this
can
directly
indirectly
lead
to
reduction
carbon
emissions
and,
result,
in
neutralizing
effects
global
warming
climate
change
actively
participate.
biochar
route
be
even
more
powerful
than
bioenergy
terms
targets.
In
line
with
these
facts,
review
tries
study
biochar,
its
by
slow
diverse
applications
reduce
ecosystem
stability.
Also,
such
sequestration,
soil
strengthening,
reducing
pollutants
are
technically
environmentally
discussed.
Biochar's
adaptability
consistent
development
goals,
making
it
valuable
tool
tackling
challenges
change,
degradation,
pollution
control.
Through
process
pyrolyzing
residues
producing
possible
avoid
cumulative
66–130
billion
metric
tons
CO2
equivalent
over
century.
Approximately
50
%
avoided
result
long-term
sequestration
capabilities
biochar.
Additionally,
30
reductions
come
substituting
fossil
fuels
pyrolysis-derived
energy,
while
remaining
20
arise
prevention
methane
nitrous
oxide
emissions.
Reflecting
growing
significance,
industry,
valued
at
approximately
USD
541.8
million
2023,
poised
remarkable
growth.
Projected
expand
an
impressive
annual
rate
13.9
2024
2030.
Engineering Microbiology,
Journal Year:
2024,
Volume and Issue:
4(2), P. 100139 - 100139
Published: Feb. 2, 2024
Lignocellulosic
biomass
is
an
abundant
and
renewable
bioresource
for
the
production
of
biofuels
biochemical
products.
The
classical
biorefinery
process
lignocellulosic
degradation
conversion
comprises
three
stages,
i.e.,
pretreatment,
enzymatic
saccharification,
fermentation.
However,
complicated
pretreatment
process,
high
cost
cellulase
production,
insufficient
performance
fermentation
strains
have
restricted
industrialization
biorefinery.
Consolidated
bioprocessing
(CBP)
technology
combines
enzyme
in
a
single
bioreactor
using
specific
microorganism
or
consortium
microbes
represents
another
approach
worth
exploring
chemicals
from
biomass.
present
review
summarizes
progress
made
research
CBP
conversion.
In
this
review,
different
strategies
lignocellulose
are
reviewed,
including
with
natural
lignocellulose-degrading
microorganisms
as
chassis,
biosynthetic
microbial
co-culturing
systems.
This
provides
new
perspectives
insights
on
utilization
low-cost
feedstock
biochemicals.
