Frontiers in Microbiology,
Год журнала:
2023,
Номер
14
Опубликована: Июль 12, 2023
The
ability
of
fungal
species
to
produce
a
wide
range
enzymes
and
metabolites,
which
act
synergistically,
makes
them
valuable
tools
in
bioremediation,
especially
the
removal
pharmaceutically
active
compounds
(PhACs)
from
contaminated
environments.
PhACs
are
that
have
been
specifically
designed
treat
or
alter
animal
physiological
conditions
they
include
antibiotics,
analgesics,
hormones,
steroids.
Their
detrimental
effects
on
all
life
forms
become
source
public
outcry
due
their
persistent
nature
uncontrolled
discharge
into
various
wastewater
effluents,
hospital
surface
waters.
Studies
however
shown
fungi
necessary
metabolic
machinery
degrade
complex
environments,
such
as
soil
water,
addition
can
be
utilized
bioreactor
systems
remove
PhACs.
In
this
regard,
review
highlights
with
immense
potential
biodegradation
PhACs,
enzymatic
arsenal
well
probable
mechanism
biodegradation.
challenges
encumbering
real-time
application
promising
bioremediative
approach
also
highlighted,
areas
improvement
future
perspective.
all,
paper
points
researchers
fact
bioremediation
is
strategy
for
addressing
growing
issue
pharmaceutical
contamination
environment
help
mitigate
negative
impacts
ecosystems
human
health.
Current Pollution Reports,
Год журнала:
2022,
Номер
8(4), С. 369 - 383
Опубликована: Авг. 18, 2022
Abstract
Algae
cultivation
complements
wastewater
treatment
(WWT)
principles
as
the
process
uptakes
nutrients
while
assimilates
CO
2
into
biomass.
Thus,
application
of
algae-based
WWT
is
on
upward
trajectory
more
attention
for
recovery
and
capture
reducing
its
economic
challenge
in
circular
economy
concept.
However,
complexity
algal
ecological
characteristics
induces
techno-economic
challenges
industry
implementation.
Algae-based
relies
totally
ability
algae
to
uptake
store
Therefore,
removal
efficiency
proportional
biomass
productivity.
This
mechanism
limits
applications
low
nutrient
concentration
wastewater.
The
hydraulic
retention
time
(HRT)
significantly
long
(i.e.
>
10
days),
compared
a
few
hours
bacteria-based
process.
Phototrophic
are
most
used
studies
well
pilot-scale
trials.
Application
phototrophic
faces
supply
illumination.
Collectively,
significant
landscape
required
has
limited
organic
removals,
which
require
pretreatment
wastewaters
before
flowing
can
be
connection
with
remove
partial
capturing
.
Future
research
should
strive
achieve
fast
high
growth
rate,
strong
environmental
tolerance
species,
simple
downstream
processing
high-value
There
also
clear
urgent
need
systematic
analysis
both
carbon
credit
assessment
values
facilitate
identification
prioritisation
barriers
lower
cost
WWT.
Graphical
abstract
International Journal of Environmental Research and Public Health,
Год журнала:
2023,
Номер
20(4), С. 3429 - 3429
Опубликована: Фев. 15, 2023
Discharging
large
amounts
of
domestic
and
industrial
wastewater
drastically
increases
the
reactive
nitrogen
content
in
aquatic
ecosystems,
which
causes
severe
ecological
stress
biodiversity
loss.
This
paper
reviews
three
common
types
denitrification
processes,
including
physical,
chemical,
biological
mainly
focuses
on
membrane
technology
for
recovery.
The
applicable
conditions
effects
various
treatment
methods,
as
well
advantages,
disadvantages,
influencing
factors
technologies,
are
summarized.
Finally,
it
is
proposed
that
developing
effective
combinations
different
methods
researching
new
processes
with
high
efficiency,
economy,
energy
savings,
such
microbial
fuel
cells
anaerobic
osmotic
bioreactors,
research
development
directions
processes.
Water,
Год журнала:
2025,
Номер
17(2), С. 210 - 210
Опубликована: Янв. 14, 2025
Carbon
dots
(CDs),
as
a
revolutionary
nanomaterial,
exhibit
unique
advantages
in
terms
of
wastewater
treatment,
offering
new
opportunities
for
the
development
water
treatment
technologies
due
to
their
simple
synthesis
methods,
excellent
biocompatibility,
tunable
optical
properties,
and
favorable
environmental
performance.
This
review
systematically
discusses
structural
characteristics,
application
progress
carbon
highlighting
several
key
findings.
(1)
Excellent
adsorption
performance:
CDs
can
effectively
remove
heavy
metal
ions,
dyes,
organic
pollutants
from
water.
(2)
Outstanding
photocatalytic
Some
carbon-dot-enhanced
systems
efficiently
under
visible
light.
(3)
Exceptional
selective
detection
ability:
are
capable
highly
sensitive
metals
water,
with
limits
reaching
nanomolar
level.
(4)
Enhanced
membrane
separation
The
high
flux
selectivity
carbon-dot-modified
membranes
make
them
suitable
efficient
quality
separation.
(5)
Enhancement
biological
treatment:
In
systems,
significantly
improve
microbial
activity
electron
transfer
efficiency
enhance
degradation
processes.
(6)
Sustainable
utilization
waste
raw
material
regeneration
conducive
reducing
cost
preparation
CDs.
These
findings
indicate
that
have
broad
potential
treatment.
Furthermore,
this
looks
ahead
future
directions
proposing
innovations
catalytic
performance
enhancement,
control,
practical
applications,
aiming
provide
important
references
guidance
research
industrial
Membranes,
Год журнала:
2022,
Номер
12(11), С. 1094 - 1094
Опубликована: Ноя. 3, 2022
The
use
of
microalgae
for
wastewater
remediation
and
nutrient
recovery
answers
the
call
a
circular
bioeconomy,
which
involves
waste
resource
utilization
ecosystem
protection.
integration
cultivation
treatment
has
been
proposed
as
promising
strategy
to
tackle
issues
water
energy
source
depletions.
Specifically,
microalgae-enabled
offers
an
opportunity
simultaneously
implement
valuable
biomass
production.
As
versatile
technology,
membrane-based
processes
have
increasingly
explored
microalgae-based
remediation.
This
review
provides
literature
survey
discussion
recent
progressions
achievements
made
in
development
membrane
photobioreactors
(MPBRs)
recovery.
opportunities
using
interesting
option
manage
effluents
that
contain
high
levels
nutrients
are
explored.
innovations
design
their
performances
evaluated.
pave
way
effective
practical
implementation
technology
large-scale
processes.
