Biotechnology for Biofuels and Bioproducts,
Journal Year:
2023,
Volume and Issue:
16(1)
Published: Jan. 2, 2023
Succinic
acid
(SA)
is
an
intermediate
product
of
the
tricarboxylic
cycle
(TCA)
and
one
most
significant
platform
chemicals
for
production
various
derivatives
with
high
added
value.
Due
to
depletion
fossil
raw
materials
demand
eco-friendly
energy
sources,
SA
biosynthesis
from
renewable
sources
gaining
attention
its
environmental
friendliness.
This
review
comprehensively
analyzes
strategies
bioconversion
lignocellulose
based
on
pretreatment
processes
cellulose
hydrolysis
fermentation
principles
highlights
research
progress
utilization
under
different
microbial
culture
conditions.
In
addition,
efficiency
strains
main
challenges
were
analyzed.
The
future
application
directions
pointed
out.
It
expected
that
this
will
provide
a
reference
optimization
lignocellulose.
Environmental Chemistry Letters,
Journal Year:
2023,
Volume and Issue:
21(5), P. 2729 - 2760
Published: June 15, 2023
Abstract
The
rise
of
global
waste
and
the
decline
fossil
fuels
are
calling
for
recycling
into
energy
materials.
For
example,
rice
straw,
a
by-product
cultivation,
can
be
converted
biogas
by-products
with
added
value,
e.g.,
biofertilizer,
yet
processing
straw
is
limited
by
low
content,
high
ash
silica,
nitrogen,
moisture,
high-quality
variability.
Here,
we
review
focus
on
Chinese
situations,
conversion
gas,
digestate
management,
cogeneration,
upgrading,
bioeconomy,
life
cycle
assessment.
quality
improved
pretreatments,
such
as
baling,
ensiling,
co-digestion
other
feedstocks.
used
to
fertilize
soils.
average
annual
potential
collectable
lower
heating
value
15.35
megajoule/kilogram,
over
past
ten
years
(2013–2022)
could
reach
2.41
×
10
9
megajoule.
Environmental Chemistry Letters,
Journal Year:
2024,
Volume and Issue:
22(6), P. 2641 - 2668
Published: Oct. 26, 2024
Abstract
Anaerobic
digestion
constitutes
a
sustainable
method
for
waste
management
and
renewable
energy
generation,
addressing
significant
environmental
societal
challenges.
The
growing
global
crisis
the
increasing
momentum
toward
solutions
emphasize
critical
need
to
enhance
anaerobic
technology
improved
efficiency
advantages.
This
process
mitigates
accumulation,
enhances
security,
reduces
greenhouse
gas
emissions,
providing
feasible
solution
within
framework
of
circular
bioeconomy.
Here,
we
review
principles
biogas
production,
focusing
on
agricultural
utilization
framework.
We
specifically
explore
applications
in
rural
industrial
settings,
assess
impacts,
discuss
regulatory
landscape
with
insights
from
China
Europe.
study
reveals
that
strategic
implementation
can
markedly
improve
yield
sustainability,
demonstrating
how
focused
policies
advanced
technological
practices
optimize
utilization.
comprehension
emphasizing
Europe
as
key
examples.
