Advances in environmental engineering and green technologies book series,
Год журнала:
2025,
Номер
unknown, С. 425 - 456
Опубликована: Янв. 16, 2025
Innovative
wastewater
treatment
is
becoming
increasingly
critical
in
addressing
global
water
scarcity
and
pollution
challenges.
This
abstract
explores
synergistic
approaches
that
integrate
advanced
technologies,
resource
recovery,
collaborative
frameworks
to
enhance
efficiency
sustainability.
Advanced
including
anaerobic
membrane
bioreactors
(AnMBRs)
bioelectrochemical
systems,
are
highlighted
for
their
ability
effectively
remove
contaminants
while
recovering
valuable
resources
such
as
energy
nutrients.
These
systems
not
only
improve
effluent
quality
but
also
reduce
the
environmental
footprint
of
processes.
Moreover,
decentralized
nature-based
solutions,
constructed
wetlands,
gaining
traction
cost-effectiveness
ecological
benefits.
The
integration
recovery
practices,
represents
a
holistic
strategy
enhancing
treatment,
ensuring
sustainable
management,
protecting
public
health
environment.
Science of Advanced Materials,
Год журнала:
2023,
Номер
15(10), С. 1277 - 1298
Опубликована: Окт. 1, 2023
Anaerobic
Membrane
Bioreactor
(AnMBR),
as
a
new
technology
to
achieve
efficient
energy
recovery
from
municipal
wastewater,
has
received
widespread
attention,
but
it
still
faces
huge
technical
and
economic
challenges.
The
characteristics
of
AnMBR
for
sewage
treatment
the
long-term
control
method
membrane
fouling
need
further
research,
operation
at
low
temperature
needs
be
solved.
This
review
aims
discuss
research
progress
bottleneck
wastewater
through
process
characteristics,
formation
mechanism,
regulation
action
mechanism.
paper
discusses
main
challenges
solutions
in
application
process,
on
this
basis,
looks
forward
development
direction
treatment.
It
provide
reference
promoting
treat
low-concentration
realize
reuse
resources
sewage.
Energies,
Год журнала:
2022,
Номер
16(1), С. 83 - 83
Опубликована: Дек. 21, 2022
Anaerobic
wastewater
treatment
is
still
a
dynamically
developing
technology
ensuring
the
effective
degradation
of
organic
compounds
and
biogas
production.
As
evidenced
in
large
scale-up,
this
technological
solution
surpasses
aerobic
methods
many
aspects.
Its
advantages
stem
from
feasibility
operation
at
high
load
rate,
smaller
production
difficult-to-manage
sewage
sludge,
space
cubature
required,
high-methane
ultimately
produced.
The
exploitation
anaerobic
reactors
line
with
assumption
circular
economy,
material
recycling
by
reduced
CO2
emissions
energy
consumption,
renewable
energy.
Despite
their
unquestionable
advantages,
there
need
to
seek
novel
approaches
improve
currently
exploited
installations.
key
avenues
research
entail
improvements
stability
bioreactor
operations
enhancement
adaptability
changing
unfavorable
process
parameters.
versatility
such
systems
would
also
be
greatly
improved
increasing
nitrogen
phosphorus
removal
rates.
Attempts
have
been
made
achieve
these
goals
setting
up
separate
zones
within
bioreactors
for
individual
steps
methane
fermentation,
incorporating
active
fillings
promote
nutrient
removal,
introducing
chemical
physical
treatments.
An
interesting
use
microwave
radiation
stimulate
temperature
conditions
induce
non-thermal
phenomena,
as
enhancing
enzymatic
activity
methanogenic
microflora.
Another
prospective
approach
integrate
digesters
into
microalgal
biomass
systems.
aim
review
paper
present
thus-far
knowledge
about
treatment,
including
standard
solutions
innovative
ones,
effectiveness
which
has
corroborated
pilot-scale
International Journal of Science and Research Archive,
Год журнала:
2024,
Номер
11(1), С. 1830 - 1842
Опубликована: Фев. 17, 2024
Anaerobic
membrane
bioreactors
(AnMBRs)
represent
an
innovative
approach
to
wastewater
treatment,
combining
anaerobic
digestion
with
filtration
achieve
efficient
organic
pollutant
removal
and
resource
recovery.
This
review
critically
examines
the
potential
of
AnMBRs
in
highlighting
their
principles,
advantages,
challenges,
recent
advancements,
future
prospects.
offer
several
advantages
over
traditional
aerobic
treatment
methods,
including
higher
loading
rates,
reduced
energy
requirements,
biogas
production
through
methane
generation.
However,
challenges
such
as
fouling,
reactor
complexity,
operational
costs
have
limited
widespread
adoption.
Recent
advancements
materials,
fouling
mitigation
strategies,
process
optimization
improved
AnMBR
performance
feasibility.
Novel
materials
enhanced
resistance
durability
been
developed,
while
cleaning
techniques
protocols
implemented
mitigate
prolong
lifespan.
Process
design
modifications
parameter
adjustments,
efficiency
consumption
AnMBRs.
Future
research
directions
technology
focus
on
optimizing
configurations,
exploring
novel
control
conducting
comprehensive
techno-economic
assessments
evaluate
environmental
economic
sustainability
Integration
emerging
technologies
distillation,
forward
osmosis,
bioelectrochemical
systems
holds
promise
for
further
enhancing
recovery
capabilities.
Additionally,
addressing
knowledge
gaps
mechanisms,
microbial
community
dynamics,
long-term
system
stability
is
crucial
advancing
facilitating
its
implementation
treatment.
Overall,
significant
sustainable
providing
opportunities
removal,
recovery,
reuse.
By
technical
parameters,
interdisciplinary
research,
can
contribute
development
efficient,
cost-effective,
environmentally
friendly
solutions,
ultimately
supporting
goal
achieving
cleaner
water
resources
a
more
future.
