Discover Catalysis.,
Journal Year:
2025,
Volume and Issue:
2(1)
Published: April 9, 2025
Abstract
As
pollution
rises
and
spoil
the
living
environment,
prevention
must
be
prioritized,
requiring
creative
safety
measures.
Since
a
future
threat
might
availability
of
drinkable
water,
it
is
imperative
to
adequately
treat
industrial
wastewater,
which
substantial
source
pollution,
before
its
discharge.
Conventional
approaches
frequently
prove
ineffective
in
dealing
with
multiple
impurities,
presenting
significant
barrier
purification.
Catalysis
offers
innovative,
efficient,
eco-friendly
solutions
for
wastewater
treatment.
This
study
investigates
innovative
catalytic
methods
efficient
successful
treatment
wastewater.
A
particular
attention
given
processes
using
real
from
plants.
Researchers
prioritize
development
improved
catalysts
electrocatalysts
decompose
pollutants
into
less
hazardous
or
beneficial
substances
without
causing
any
negative
influence
on
environment.
Catalytic
procedures
have
remarkable
efficiency
breaking
down
contaminants,
emphasizing
their
vital
role
sustainable
To
progress
this
area,
crucial
concentrate
enhancing
investigating
novel
materials.
The
plants
integration
optimized
Advanced
oxidation
process
optimal
membrane
technology
owing
separately
handling
degradation
ACS ES&T Water,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 6, 2025
Effective
and
energy-efficient
wastewater
disinfection
is
crucial
for
sustainable
water
management,
especially
in
light
of
global
scarcity.
This
study
introduces
a
novel
computational
fluid
dynamics
(CFD)-optimized
Baffled
Airlift
Reactor
(BALR)
to
address
inefficiencies
ozonation-based
disinfection.
By
integrating
vertical
horizontal
baffles,
the
BALR
enhances
gas–liquid
interaction,
increases
ozone
contact
time,
minimizes
dead
zones,
achieving
99.62%
total
coliform
removal
efficiency
38%
reduction
energy
consumption
(0.011
kWh·m–3)
compared
conventional
systems.
Beyond
treatment,
can
also
be
considered
as
an
option
industrial
applications,
such
chemical
processing
food
safety,
offering
broad
utility.
Sensitivity
analysis
scalability
testing
validate
design's
robustness
applicability
diverse
settings.
These
findings
establish
scalable,
high-efficiency
framework
advanced
treatment
systems,
laying
groundwork
future
integration
renewable
sources
into
ozonation
technologies.
ACS ES&T Engineering,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 6, 2025
The
catalytic
ozonation
process
(COP)
is
an
effective
method
for
wastewater
treatment.
Previous
studies
have
shown
that
Fe-based
catalysts
can
yield
good
results
in
full-scale
treatment
of
high-salinity
wastewater,
which
typically
difficult
to
treat.
However,
chloride
ions
(Cl–)
affect
the
service
life
and
performance
catalyst
during
stoppage
COP
operations
actual
practice.
Therefore,
a
wet–dry
cyclic
test
device
was
constructed
simulate
corrosion
behavior
under
saline
conditions.
demonstrated
formed
relatively
dense
thick
film
structure
after
repeated
cycles,
led
enhanced
durability,
with
decreased
current
≥100
μA·cm–2,
slight
enhancement
performance,
maximum
increase
approximately
6%
total
organic
carbon
removal.
long-term
dry
storage
high
Cl–
conditions
(50,000
mg/L)
resulted
cavity
formation
within
material,
leading
increased
risk
losing
layer.
Overall,
low-cost
option
low
conditions,
whereas
wet
(with
ozone
aeration)
better
choice
as
it
consumed
less
alloy
could
prolong
catalyst.
This
study
not
only
clarifies
mechanism
changes
durability
cycles
but
also
provides
scientific
foundation
optimizing
Additionally,
offers
valuable
insight
economic
sustainable
development
by
proposing
suitable
detection
method.
Discover Catalysis.,
Journal Year:
2025,
Volume and Issue:
2(1)
Published: April 9, 2025
Abstract
As
pollution
rises
and
spoil
the
living
environment,
prevention
must
be
prioritized,
requiring
creative
safety
measures.
Since
a
future
threat
might
availability
of
drinkable
water,
it
is
imperative
to
adequately
treat
industrial
wastewater,
which
substantial
source
pollution,
before
its
discharge.
Conventional
approaches
frequently
prove
ineffective
in
dealing
with
multiple
impurities,
presenting
significant
barrier
purification.
Catalysis
offers
innovative,
efficient,
eco-friendly
solutions
for
wastewater
treatment.
This
study
investigates
innovative
catalytic
methods
efficient
successful
treatment
wastewater.
A
particular
attention
given
processes
using
real
from
plants.
Researchers
prioritize
development
improved
catalysts
electrocatalysts
decompose
pollutants
into
less
hazardous
or
beneficial
substances
without
causing
any
negative
influence
on
environment.
Catalytic
procedures
have
remarkable
efficiency
breaking
down
contaminants,
emphasizing
their
vital
role
sustainable
To
progress
this
area,
crucial
concentrate
enhancing
investigating
novel
materials.
The
plants
integration
optimized
Advanced
oxidation
process
optimal
membrane
technology
owing
separately
handling
degradation
