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biotreatment

Biotreatment refers to the use of living organisms or their enzymes to remove, transform, or immobilize pollutants from air, water, soil, or waste streams. It relies on the natural metabolic processes of microorganisms such as bacteria, fungi, and algae, sometimes augmented with enzymes or biomass support materials, to reduce pollutant concentrations or toxicity in an environmentally compatible manner.

In air and water treatment, biotreatment commonly includes biological wastewater processes such as activated sludge, anaerobic

The effectiveness of biotreatment depends on factors including temperature, pH, oxygen supply, nutrient balance, contaminant toxicity,

Applications span municipal and industrial wastewater treatment, soil and groundwater cleanup, air purification, and waste management.

digestion,
trickling
filters,
and
aerated
lagoons,
as
well
as
constructed
wetlands
that
provide
a
habitat
for
pollutant-transforming
microbes.
In
soil
and
groundwater
remediation,
bioremediation
uses
microbes
to
degrade
organic
contaminants;
strategies
such
as
biostimulation
(adding
nutrients
or
electron
donors)
and
bioaugmentation
(adding
specialized
strains)
aim
to
enhance
the
natural
biodegradation
rates.
Composting
and
biofiltration
are
other
biotechnical
approaches
used
to
stabilize
organic
waste
and
remove
odorous
compounds.
and
the
presence
of
inhibitory
substances.
Mechanisms
include
biodegradation,
where
pollutants
are
metabolized
to
harmless
products;
sorption
or
biosorption
to
biomass;
and,
in
anaerobic
systems,
anaerobic
digestion
producing
biogas
(primarily
methane
and
carbon
dioxide).
Advantages
include
lower
energy
use
and
chemical
consumption,
potential
recovery
of
energy
and
nutrients,
and
relatively
simple
operation
for
suitable
loads.
Limitations
include
longer
treatment
times,
sensitivity
to
toxic
compounds
or
shock
loads,
complex
process
control,
and
the
need
for
careful
monitoring
and
regulatory
compliance.