npj Sustainable Agriculture,
Journal Year:
2023,
Volume and Issue:
1(1)
Published: Oct. 4, 2023
Abstract
While
it
remains
debated
if
mineral
deposits
mined
for
phosphorus
fertilizer
are
running
out,
insecurity
is
an
emerging
global
issue.
We
explore
how
linked
to
the
current
linear
economy
(LPE)
and
historic
implications.
The
problems
multifold:
there
geopolitical
concerns
over
held
only
by
a
few
nations,
sharply
rising
costs
of
fertilizers,
heavy
metal
contaminants
affecting
soil
food,
problematic
mining
wastes,
environmental
degradation
caused
inefficiencies.
Here
we
argue
that
new
can
resolve
these
problems.
Transitioning
sustainable
use
demands
circular
(CPE).
A
CPE
supports
several
Sustainable
Development
Goals
enables
greater
autonomy.
illustrate
with
case
studies
outline
opportunities
change.
will
feature
recovery
facilities,
waste
valorisation
technologies,
improved
formulations
customized
target
crops
crop
systems.
highlight
examples
rapidly
advancing
essential
agriculture.
Water Research,
Journal Year:
2021,
Volume and Issue:
209, P. 117891 - 117891
Published: Nov. 25, 2021
Phosphorus
(P)
is
an
essential
element
for
the
growth
and
reproduction
of
organisms.
Unfortunately,
natural
P
cycle
has
been
broken
by
overexploitation
ores
associated
discharge
into
water
bodies,
which
may
trigger
eutrophication
bodies
in
short
term
possible
shortage
soon.
Consequently,
technologies
emerged
to
recover
from
wastewater
mitigate
pollution
exploit
secondary
resources.
Electrochemically
induced
phosphate
precipitation
merit
achieving
recovery
without
dosing
additional
chemicals
via
creating
a
localized
high
pH
environment
near
cathode.
We
critically
reviewed
development
electrochemically
systems
toward
removal
over
past
ten
years.
summarized
discussed
effects
pH,
current
density,
electrode
configuration,
matrix
on
performance
electrochemical
systems.
Next
ortho
P,
we
identified
potential
illustrated
mechanism
non-ortho
compounds
combined
anodic
or
anode-mediated
oxidation
cathodic
reduction
(precipitation).
Furthermore,
assessed
economic
feasibility
methods
concluded
that
they
are
more
suitable
treating
acidic
P-rich
waste
streams.
Despite
promising
potentials
significant
progress
recent
years,
application
at
larger
scale
requires
further
research
development.
Future
work
should
focus
evaluating
system's
under
long-term
operation,
developing
automatic
process
harvesting
deposits,
performing
detailed
life-cycle
assessment.
Critical Reviews in Environmental Science and Technology,
Journal Year:
2022,
Volume and Issue:
53(11), P. 1148 - 1172
Published: Sept. 30, 2022
Phosphorus
(P)
as
an
essential
nutrient
for
life
sustains
the
productivity
of
food
systems;
yet
misdirected
P
often
accumulates
in
wastewater
and
triggers
water
eutrophication
if
not
properly
treated.
Although
technologies
have
been
developed
to
remove
P,
little
attention
has
paid
recovery
from
wastewater.
This
work
provides
a
comprehensive
review
state-of-the-art
removal
science
treatment.
Our
analyses
focus
on
mechanisms,
efficiencies,
potential
four
typical
treatment
processes
including
precipitation,
biological
treatment,
membrane
separation,
adsorption.
The
design
principles,
feasibility,
operation
parameters,
pros
&
cons
these
are
analyzed
compared.
Perspectives
future
research
also
proposed
context
paradigm
shift
sustainable
technology.
Chemical Society Reviews,
Journal Year:
2023,
Volume and Issue:
52(16), P. 5388 - 5484
Published: Jan. 1, 2023
This
review
summarizes
the
advancements
in
elemental
phosphorus
materials,
focusing
on
fundamental
physicochemical
properties,
synthesis,
and
applications
sustainable
energy
environment.
Chemical Engineering Journal Advances,
Journal Year:
2024,
Volume and Issue:
18, P. 100589 - 100589
Published: Jan. 29, 2024
Reduce
environmental
impacts
and
guarantee
a
steady
supply
of
critical
chemicals
by
practising
sustainable
waste
management
chemical
production.
By
advancing
circular
economy
ideas
decreasing
dependency
on
finite
resources,
this
research
has
the
potential
to
alter
industrial
landscape
radically.
The
technological,
economic,
regulatory,
social
barriers
material
recovery
production
are
explored
in
paper.
key
resolving
these
issues
is
identification
solutions
that
both
economically
viable
environmentally
benign.
This
paper
introduces
Chemical
Production
Waste
Material
Recovery
Framework
(CP&WMRF),
which
incorporates
innovative
recycling
upcycling
methods,
manufacturing
processes,
incorporation
digital
technologies
like
artificial
intelligence
(AI)
machine
learning
(ML)
maximize
efficiency
with
resources
employed.
It
possible
reduce
energy
use
Interfaces
help
CP&WMRF.
Chemicals
can
be
manufactured
using
feedstocks
as
an
alternative
fossil
fuels.
system
standardizes
how
e-waste
recycled
recovered
metals
materials
used.
To
prove
viability
they
require
simulation
modeling
tools.
assessments
decision-makers
understand
benefits
drawbacks
proposed
terms
their
performance,
effect,
economic
viability.
When
pitted
against
AI-ML,
achieved
94.2
%,
CP&WMRF's
96.2%
result
reveals
significant
edge.
AI-ML
less
efficient,
score
93.8
%.
field
sustainability
analysis,
95.2%,
higher
than
AI-ML's
decent
lower
93.2%.
impressive
97.5%
CP&WMRF
resource
substantially
surpasses
92.8%
ascribed
AI-ML.
remarkable
success
optimizing
recovery,
98.7%,
91.5%
associated
present
establishes
framework
for
revolutionary
move
toward
green
chemistry
integrating
all-encompassing
applications,
rigorous
analysis.
