Infectious Medicine,
Год журнала:
2024,
Номер
3(1), С. 100092 - 100092
Опубликована: Фев. 19, 2024
Antimicrobials
are
frequently
used
in
both
humans
and
animals
for
the
treatment
of
bacterially-generated
illnesses.
Antibiotic
usage
has
increased
more
than
40%
from
last
15
years
globally
per
day
human
populations
farm
leading
to
large-scale
discharge
antibiotic
residues
into
wastewater.
Most
antibiotics
end
up
sewer
systems,
either
directly
industry
or
healthcare
indirectly
after
being
partially
metabolized
broken
down
following
consumption.
To
prevent
additional
compound
pollution,
which
eventually
impacts
on
spread
resistance,
it
is
crucial
remove
accumulation
resistance
genes
cannot
be
effectively
efficiently
eliminated
by
conventional
sewage
plants.
Because
their
high
energy
requirements
operating
costs,
many
available
technologies
not
feasible.
However,
biosorption
method,
uses
low-cost
biomass
as
biosorbent,
an
alternative
technique
potentially
address
these
problems.
An
extensive
literature
survey
focusing
developments
field
was
conducted
using
English
language
electronic
databases,
such
PubMed,
Google
Scholar,
Pubag,
books,
ResearchGate,
understand
relative
value
removal
methods.
The
predominant
techniques
eliminating
wastewater
were
categorized
defined
example.
approaches
contrasted,
benefits
drawbacks
highlighted.
Additionally,
we
included
a
few
whose
aquatic
environments
been
subject
research.
Lastly,
representative
publications
identified
that
provide
specific
information
rates
attained
each
technique.
This
review
provides
evidence
biological
waste
natural
biosorbent
materials
affordable
effective
Abstract
This
study
aims
to
explore
technological
advances
and
prospects
in
phenol
treatment
by
providing
a
detailed
bibliometric
survey
of
wastewater
applications,
highlighting
innovative
research.
Using
the
Web
Science
database,
we
identified
79,104
articles
from
2003
2023,
later
refined
1848.
The
keywords
were
used
for
initial
search:
“phenol”,
“wastewater”,
“degradation”,
“treatment”
“removal”.
bibliographic
review
details
occurrence
journals,
authors,
newspapers,
countries,
institutions,
keywords,
highly
cited
articles,
prominent
predominant
research
fields.
In
particular,
field
“Engineering”
was
responsible
32%
published
followed
“Ecology
Environmental
Sciences”
(25%)
“Chemistry”
(12%).
addition,
keyword
analysis
revealed
five
major
groups
clusters
that
indicate
where
is
progressing.
aspect
crucial
understanding
evolution
perspectives
interests
over
time.
Therefore,
future
should
prioritize
feedstock
diversification.
focus
essential
address
significant
challenges,
such
as
production
costs,
stability,
durability
processes.
Graphical
Scientific Reports,
Год журнала:
2024,
Номер
14(1)
Опубликована: Июль 16, 2024
Abstract
This
work
presents
highly
porous
magnetic
activated
carbon
nanoparticles
(MPFRC-A)
derived
from
pine
fruit
residue.
The
MPFRC-A
were
produced
through
a
three-step
process:
physical
activation
(carbonization
temperature:
110–550
°C),
chemical
(H
2
SO
4
(0.1
N,
96%)),
and
co-precipitation.
These
then
used
to
remove
tetracycline
(TC)
paracetamol
(PC)
water.
Functionalization
with
Fe
3
O
on
the
surface
of
residue-derived
(PFRC-A)
resulted
in
high
saturation
magnetization,
allowing
for
separation
aqueous
solution
using
an
external
magnet.
adsorbent
was
characterized
by
Brunauer–Emmett–Teller
(BET)
analysis,
Fourier-transform
infrared
spectroscopy
(FTIR),
scanning
electron
microscopy
(SEM),
X-ray
diffraction
(XRD),
Energy-dispersive
(EDX)
analyses,
In
experimental
section,
effects
various
factors
adsorption
process
investigated,
including
pH,
contact
time,
initial
pollutant
concentrations,
dosage,
temperature.
Based
these
investigations,
isotherm
models
kinetics
studied
determined.
results
showed
that
exhibited
large
specific
area
(182.5
m
/g)
total
pore
volume
(0.33
cm
/g).
maximum
capacity
achieved
at
pH
6
5
PC
TC
drugs
dose
400
mg
concentration
20
mg/L
25
°C.
study
revealed
data
well-fitted
Langmuir
model
(R
>
0.98),
uptake
capacities
43.75
mg/g
41.7
PC.
Outcomes
thermodynamics
shows
non-spontaneity
reaction
all
adsorbents
endothermic.
Current Pollution Reports,
Год журнала:
2024,
Номер
10(3), С. 345 - 361
Опубликована: Апрель 29, 2024
Abstract
Purpose
of
Review
In
the
presented
review,
we
have
summarized
and
highlighted
recent
developments
in
use
lignin
peroxidase
(LiP)
to
remove
a
variety
pollutants
from
water
matrices.
The
high
redox
potential
LiP
is
underlined
by
its
excellent
catalytic
functionalities
elimination
pharmaceuticals,
phenolics,
dyes,
polycyclic
aromatic
hydrocarbons
(PAHs),
endocrine-disrupting
chemicals
(EDCs),
other
miscellaneous
pollutants.
LiP-based
computational
frameworks
for
theoretical
bioremediation
multiple
also
been
discussed,
which
prompted
rise
scientific
interest.
Recent
Findings
According
current
studies,
both
free
immobilized
LiPs
are
biocatalysts
capable
efficient
pollutant
degradation
LMW
transformation.
Some
preparations
demonstrated
recyclability,
enabling
reusability
cycles.
Additionally,
degradability
makes
it
easier
comprehend
mechanisms
underlying
recalcitrant
Summary
capacity
cleave
C–C
C–O–C
bonds
has
led
widespread
application
as
biocatalyst.
Its
outstanding
catalyze
oxidative
cleavage
effectively
used
remediation
without
needing
mediators.
Nevertheless,
brought
attention
system
framework,
generated
significant
Ecotoxicology and Environmental Safety,
Год журнала:
2024,
Номер
281, С. 116610 - 116610
Опубликована: Июнь 22, 2024
This
review
highlights
the
limitations
faced
by
conventional
wastewater
treatment
plants
(WWTPs)
in
effectively
removing
contaminants
of
emerging
concern
(CECs),
heavy
metals
(HMs),
and
Escherichia
coli
(E.
coli).
emphasises
current
methods
advocates
for
innovative
approaches
to
enhance
removal
efficiency.
By
following
PRISMA
guidelines,
study
systematically
reviewed
relevant
literature
on
detecting
remedying
these
pollutants
facilities.
Conventional
struggle
eliminate
CECs,
HMs,
E.
owing
their
small
size,
persistence,
complex
nature.
The
suggests
upgrading
WWTPs
with
advanced
tertiary
processes
significantly
improve
contaminant
removal.
calls
cost-effective
parameters
standardised
assessment
techniques
fate
MPs
WRRFs.
It
recommends
integrating
insights
from
mass-balance
model
studies
WWTP
overcome
modelling
challenges
ensure
reliability.
In
conclusion,
this
underscores
urgent
need
advancements
mitigate
environmental
impact
trace
anthropogenic
biomarkers.
Future
efforts
should
focus
conducting
comprehensive
studies,
implementing
methods,
optimising
management
practices
