Insects,
Journal Year:
2024,
Volume and Issue:
15(8), P. 611 - 611
Published: Aug. 13, 2024
The
interest
in
edible
insects’
mass
rearing
has
grown
considerably
recent
years,
thereby
highlighting
the
challenges
of
domesticating
new
animal
species.
Insects
are
being
considered
for
use
management
organic
by-products
from
agro-industry,
synthetic
plastics
industry
including
particular
detoxification
processes.
processes
depend
on
insect’s
digestive
system
which
is
based
two
components:
an
enzymatic
intrinsic
cargo
to
insect
species
and
another
extrinsic
provided
by
microbial
community
colonizing—associated
with
host.
Advances
have
been
made
identification
origin
functions
observed
midgut.
It
now
evident
that
microorganisms
can
adapt,
improve,
extend
ability
digest
detoxify
its
food.
Nevertheless,
such
as
Hermetia
illucens
Tenebrio
molitor
surprisingly
autonomous,
no
obligatory
symbiosis
a
microorganism
yet
uncovered
digestion.
Conversely,
intestinal
microbiota
given
take
different
forms,
largely
influenced
host’s
environment
diet.
This
flexibility
offers
potential
development
novel
associations
between
insects
microorganisms,
could
result
creation
synergies
would
optimize
or
expand
value
chains
agro-industrial
by-products,
well
contaminants.
Biomass,
Journal Year:
2024,
Volume and Issue:
4(1), P. 132 - 163
Published: March 1, 2024
Fermentation
is
an
oxygen-free
biological
process
that
produces
hydrogen,
a
clean,
renewable
energy
source
with
the
potential
to
power
low-carbon
economy.
Bibliometric
analysis
crucial
in
academic
research
evaluate
scientific
production,
identify
trends
and
contributors,
map
development
of
field,
providing
valuable
information
guide
researchers
promote
innovation.
This
review
provides
advanced
bibliometric
future
perspective
on
fermentation
for
hydrogen
production.
By
searching
WoS,
we
evaluated
refined
62,087
articles
4493
articles.
allowed
us
most
important
journals,
countries,
institutions,
authors
field.
In
addition,
ten
cited
dominant
areas
were
identified.
A
keyword
revealed
five
clusters
illustrate
where
progressing.
The
outlook
indicates
deeper
understanding
microbiology
support
from
policy
will
drive
fermentation.
Cleaner Materials,
Journal Year:
2024,
Volume and Issue:
13, P. 100253 - 100253
Published: June 13, 2024
The
development
of
sustainable
and
effective
methods
for
extracting
lignin
is
crucial
achieving
the
advantages
promoting
shift
towards
a
more
circular
bioeconomy.
This
study
addresses
use
environmentally
friendly
processes,
including
organosolv
technique,
supercritical
fluid
(SCF),
non-thermal
plasma
(NTP),
ionic
liquids
(ILs),
deep
eutectic
solvents
(DES),
microwave
assisted
extraction
(MAE)
techniques
extraction.
Organosolv
treatment
offers
high
selectivity
purity
make
this
process
economically
feasible.
Using
water,
carbon
dioxide,
or
ethanol
to
extract
without
harmful
successful
customizable.
NTP
technologies
break
down
lignin,
simplifying
processing
increasing
its
value.
Whereas
ILs
may
boost
synthesis
change
properties
via
solvent
design.
DES-based
can
efficiently
specifically
lignin.
rapid
MAE
method
employs
radiation
reduce
times
yields
These
feature
selectivity,
little
environmental
impact,
capacity
target
fractions.
describes
fundamentals,
benefits,
drawbacks
each
process,
focusing
on
their
ability
large
scale
future
usage.
Additionally,
review
explores
most
recent
advancements
in
application
sector,
as
well
challenges
potential
valorizing
streams
derived
from
extraction,
thereby
fostering
solutions.
research
concludes
that
overcome
challenges,
need
address
concerns,
cost,
emissions,
efficient
use.
Sustainability,
Journal Year:
2024,
Volume and Issue:
16(3), P. 1073 - 1073
Published: Jan. 26, 2024
There
is
substantial
concern
about
critical
environmental
problems
related
to
waste
in
production
sectors
such
as
textile,
construction,
and
packaging.
The
materials
ascribed
the
sector’s
unsustainability
are
primarily
fabrics,
plastic,
hazardous
solvents,
making
developing
new
biobased
imperative.
As
such,
various
strategies
have
been
investigated
convert
recycle
give
them
commercial
value
via
manufacture
of
materials.
This
review
discusses
types
raw
sources
develop
that
could
promote
transition
toward
sustainability.
According
literature,
functional
qualities
comparable
those
synthetic
Raw
material
biomass,
derived
from
plant
animal-based
waste,
attractive
due
their
low
cost,
abundance,
biodegradability.
biomaterials,
well
characterization
performance,
also
discussed.
Further,
this
will
offer
a
comprehensive
view
potential
applicability
current
applications
developed
relevant
areas
packaging,
wastewater
remediation.
be
field
research
address
challenges
posed
by
continuous
growth
global
population.
Energy Reports,
Journal Year:
2023,
Volume and Issue:
10, P. 3073 - 3091
Published: Oct. 3, 2023
Continual
global
energy
scarcity
and
its
future
challenges,
as
well
environmental
disasters,
are
causing
devastation.
Additionally,
a
substantial
quantity
of
food
is
being
wasted
regularly.
Therefore,
the
adoption
circular
bioeconomy
principles
bioconversion
appears
to
be
both
highly
advantageous
urgently
required.
However,
previous
studies
have
placed
limited
emphasis
on
technological
progress
aspects
associated
with
food.
The
present
review
thus
investigates
how
mass-generated
waste
can
used
produce
valuable
bioproducts
through
techniques
such
oleaginous
metabolism,
anaerobic
fermentation,
solventogenesis.
These
attracted
considerable
interest
due
their
eco-friendly
resource-recycling
capacities,
efficiency
sustainability.
paper
also
discusses
approaches
integrate
biorefineries
within
existing
economies
establish
analyses
challenges
techno-economic,
life
cycle
scenarios
these
approaches.
Analysis
techno-economic
effects
reveals
that
lucrative
if
certain
pathways
maintained.
impact
methods
found
substantially
lower
than
conventional
methods.
Integrating
processes
further
improves
process
sustainably
recovers
resources.
Developing
requires
biorefinery
strategy
an
integrated
approach.
