Agronomy,
Journal Year:
2022,
Volume and Issue:
12(8), P. 1788 - 1788
Published: July 29, 2022
The
excessive
use
of
agrochemicals
to
ensure
food
security
under
the
conditions
a
growing
population,
global
climate
change,
weather
extremes,
droughts,
wasteful
freshwater
resources,
and
land
degradation
has
created
severe
challenges
for
sustainable
crop
production.
Since
frequent
abrupt
environmental
changes
are
outcompeting
existing
agricultural
technologies
production
systems
meet
security,
development
modern
nature-based
solutions
urgently
needed.
Nanotechnology
shown
potential
revolutionizing
agri-production
agri-business
in
terms
nanofertilizers
nanoparticles
protection.
Furthermore,
recent
past,
biochar
been
identified
as
negative
emission
technology
carbon
sequestration
soil
fertility
improvement.
However,
supply
chain
issues
biochar,
due
feedstock
availability,
its
worldwide
acceptability.
Meanwhile
progress
algae
research
indicated
that,
can
be
utilized
various
agro-ecosystem
services.
Algae
considered
an
efficient
biological
species
producing
biomass
phytochemicals
because
their
high
photosynthetic
efficiency
growth
rate
compared
terrestrial
plants.
In
this
context,
options
using
solution
have
investigated
review;
instance,
possibilities
bulk
algal
algal-based
biofertilizers
role
nutrient
availability
abiotic
stress
resistance
(hereafter
“phycochar”
feedstock),
elemental
composition,
bioremediation
is
discussed.
agal
nanoparticles’
mitigating
plants
was
thoroughly
investigated.
This
review
effectively
literature
improved
our
understanding
algae-based
agro-solutions
huge
stresses
improving
overall
sustainability.
few
challenges,
such
microalgae
on
large
scale
green
synthesis
nanoparticle
methodologies,
still
need
further
mechanistic
investigation.
The Science of The Total Environment,
Journal Year:
2024,
Volume and Issue:
922, P. 171259 - 171259
Published: Feb. 27, 2024
The
use
of
biochar
for
soil
improvement
and
emission
reduction
has
been
widely
recognized
its
excellent
performance.
However,
the
choice
feedstock
pyrolysis
temperature
production
significantly
affects
surface
parameters
interactions
with
substances.
In
this
study,
we
retrieved
465
peer-reviewed
papers
on
application
in
reducing
greenhouse
gas
emissions
nutrient
losses
analyzed
changes
physicochemical
from
different
pyrolytic
temperatures.
Molecular
simulation
computing
technology
was
also
used
to
explore
impacts
these
interaction
between
statistical
results
indicated
that
derived
wood-based
exhibits
superior
physical
characteristics,
such
as
increased
porosity
specific
area.
Conversely,
straw-based
found
contain
element
content,
O,
N,
H,
straw
produced
at
low
temperatures
contains
a
significant
number
functional
groups
enhance
charge
transfer
potential
adsorption
stability
by
increasing
density,
distribution
bonding
orbitals.
it
should
be
noted
enhancement
may
activate
certain
recalcitrant
C
compounds
promote
decomposition.
Taken
together,
have
implications
practitioners
when
selecting
suitable
based
agricultural
needs
their
understanding
mechanism
Deleted Journal,
Journal Year:
2024,
Volume and Issue:
6(8)
Published: July 29, 2024
Abstract
Biochar,
produced
from
biodegradable
waste
through
advanced
thermochemical
processes
like
pyrolysis,
offers
substantial
environmental
benefits
due
to
its
carbon-rich
composition
and
versatile
applications.
This
review
delves
into
the
transformative
potential
of
biochar
derived
diverse
agricultural
municipal
solid
wastes.
With
unique
properties-including
a
high
surface
area,
porosity,
functional
groups
such
as
–COOH,
–OH,
–NH
2
stands
out
highly
effective
adsorbent
for
heavy
metals
organic
pollutants.
Factors
feedstock
type,
pyrolysis
temperature,
residence
time
critically
shape
biochar’s
characteristics
yield.
Moreover,
pretreatment
methods
activation
techniques
further
amplify
adsorption
capacity.
Biochar’s
applications
are
vast,
spanning
soil
remediation,
water
purification,
carbon
sequestration,
management,
all
promoting
ecological
sustainability.
Its
remarkable
stability
efficacy
in
pollutant
removal
highlight
catalyst
vital
component
improving
health.
Despite
many
advantages,
thorough
assessment
impact
long-term
is
crucial
sustainable
use.
highlights
recent
production,
characterization,
application
advances,
emphasizing
need
balance
economic
growth
with
development.
By
strategically
integrating
various
sectors,
we
can
pave
way
greener,
more
future.
ACS ES&T Engineering,
Journal Year:
2022,
Volume and Issue:
2(4), P. 642 - 652
Published: Jan. 21, 2022
Anaerobic
digestion
(AD)
is
one
of
the
most
widely
used
bioconversion
technologies
for
renewable
energy
production
from
wet
biowaste.However,
such
AD
system
so
complicated
that
it
challenging
to
fully
comprehend
this
process
and
design
operational
conditions
a
specific
biowaste
achieve
CH4-rich
biogas.In
context,
ensemble
machine
learning
(ML)
algorithms
were
employed
develop
multi-task
models
jointly
predicting
CH4
yield
content
in
biogas
understanding
process.Based
on
best
model
with
R
2
0.82
0.86
prediction
content,
top-three
critical
factors
yield/contents
identified
their
interactions
acid
generation
microbial
community
comprehensively
interpreted
unveil
importance
generation.Moreover,
well-developed
was
integrated
an
optimization
algorithm
inversely
realworld
food
waste,
which
as
high
468.7
mL/gVS
calculation
results
experimentally
validated
relative
errors
9-16%.This
work
provides
creative
approach
gain
insights
inverse
reactors,
helpful
waste-to-energy
technologists
practitioners.
Agronomy,
Journal Year:
2022,
Volume and Issue:
12(8), P. 1788 - 1788
Published: July 29, 2022
The
excessive
use
of
agrochemicals
to
ensure
food
security
under
the
conditions
a
growing
population,
global
climate
change,
weather
extremes,
droughts,
wasteful
freshwater
resources,
and
land
degradation
has
created
severe
challenges
for
sustainable
crop
production.
Since
frequent
abrupt
environmental
changes
are
outcompeting
existing
agricultural
technologies
production
systems
meet
security,
development
modern
nature-based
solutions
urgently
needed.
Nanotechnology
shown
potential
revolutionizing
agri-production
agri-business
in
terms
nanofertilizers
nanoparticles
protection.
Furthermore,
recent
past,
biochar
been
identified
as
negative
emission
technology
carbon
sequestration
soil
fertility
improvement.
However,
supply
chain
issues
biochar,
due
feedstock
availability,
its
worldwide
acceptability.
Meanwhile
progress
algae
research
indicated
that,
can
be
utilized
various
agro-ecosystem
services.
Algae
considered
an
efficient
biological
species
producing
biomass
phytochemicals
because
their
high
photosynthetic
efficiency
growth
rate
compared
terrestrial
plants.
In
this
context,
options
using
solution
have
investigated
review;
instance,
possibilities
bulk
algal
algal-based
biofertilizers
role
nutrient
availability
abiotic
stress
resistance
(hereafter
“phycochar”
feedstock),
elemental
composition,
bioremediation
is
discussed.
agal
nanoparticles’
mitigating
plants
was
thoroughly
investigated.
This
review
effectively
literature
improved
our
understanding
algae-based
agro-solutions
huge
stresses
improving
overall
sustainability.
few
challenges,
such
microalgae
on
large
scale
green
synthesis
nanoparticle
methodologies,
still
need
further
mechanistic
investigation.
