Water,
Год журнала:
2022,
Номер
14(16), С. 2531 - 2531
Опубликована: Авг. 17, 2022
When
dyes
are
discharged
in
water
bodies,
mutagenic,
carcinogenic
and
teratogenic
effects
may
be
caused
both
aquatic
organisms
human
beings.
The
use
of
biochar
the
implementation
advanced
oxidation
processes
(AOPs)
alternative
treatments
that
have
been
used
individually
removal
wastewater.
Besides
being
effective
acting
separately,
AOPs
can
coupled,
exhibiting
synergetic
treatment
contained
water.
This
work
deals
with
methods
implemented
to
produce
from
biomass,
its
mechanism
associated
sustainability
issues.
Additionally,
main
utilized
for
covered,
as
well
biochar-AOP
combined
processes.
future
prospects
also
addressed.
coupling
has
proven
more
mineralization
than
individual
treatments.
In
this
regard
considering
scarce
studies
field,
new
horizons
opened
on
polluted
dyes.
Polymers,
Год журнала:
2023,
Номер
15(19), С. 3981 - 3981
Опубликована: Окт. 3, 2023
This
article
discusses
the
scope
biochar’s
uses;
biochar
is
a
sustainable
organic
material,
rich
in
carbon,
that
can
be
synthesized
from
various
types
of
biomass
feedstock
using
thermochemical
reactions
such
as
pyrolysis
or
carbonization.
Biochar
an
eco-friendly
filler
material
enhance
polymer
composites’
mechanical,
thermal,
and
electrical
performances.
In
comparison
to
three
inorganic
fillers,
namely
carbon
black,
nanotubes
(CNT),
filaments,
this
paper
explores
optimal
operating
conditions
for
regulating
physical
characteristics,
including
pore
size,
macro-
microporosity,
properties.
Additionally,
presents
comparative
analysis
yield
processes.
Moreover,
review
examines
how
surface
functionality,
area,
particle
size
influence
its
mechanical
performance
composites
at
different
loads.
The
study
showcases
outstanding
properties
recommends
loads
improve
composites.
Biomaterials and Polymers Horizon,
Год журнала:
2021,
Номер
1(1), С. 48 - 58
Опубликована: Окт. 20, 2021
Nanotechnology
is
a
top
priority
research
area
in
plethora
of
technological
and
scientific
fields
due
to
its
economic
impact
versatile
capability.
Among
various
applications,
water
treatment
considered
among
the
most
prospective
utilization
nanotechnology,
where
large
number
nanostructured
materials
can
remediate
using
several
different
mechanistic
ways.
For
achieving
this,
nanomaterials
be
combined
modified
with
active
moieties
develop
nanocomposites
structural
diversity
unique
physicochemical
attributes.
In
addition,
they
have
also
been
designed
integrated
into
membranes
for
improving
performance.
this
review,
we
provide
an
up-to-date
overview
as
nanoadsorbents,
such
carbon-based
nanomaterials,
nanocomposites,
nanomembranes
remediating
pesticide-based
pollutants
from
aqueous
systems
CNTs.
Notably,
are
capable
efficiently
removing
environmental
given
their
substantial
surface
area,
high
absorptive
ability,
excellent
selectivity
compatibility.
Energy Nexus,
Год журнала:
2022,
Номер
6, С. 100077 - 100077
Опубликована: Апрель 26, 2022
Food
wastes
have
gained
increasing
attention
by
the
public,
national,
and
international
organizations
due
to
substantial
social,
environmental,
economic
apprehensions,
climate
variation,
depletion
of
fossil
reserves.
Although
food
represent
serious
ecological
problems;
however,
they
possess
significant
candidature
for
biotransformation
processes
into
a
spectrum
commodity
compounds
their
rich
composition
carbohydrates,
lipids,
proteins.
There
are
few
things
consider
regarding
waste
disposal
infrastructure,
which
is
undoubtedly
an
concern.
infrastructure
improvements
in
developed
countries
do
not
receive
much
as
rapid
healthcare
facilities.
Waste
priority
number
reasons.
However,
addressing
these
issues
solely
applications
developing
will
be
sufficient.
Due
cultural,
economic,
resource
gaps
between
countries,
several
unique
challenges
must
solved
improve
management
system
countries.
It
essential
evaluate
current
tendencies
technological
improvement
modification
supply
chain
because
biomass
transformation
define
significance
substrate
well
functional
expenses.
generation
industrially
important
via
valorization
shows
excellent
opportunity,
comprehensive
appraisal
automation
supported
improving
processing
economics
necessary
before
industrial
execution.
Journal of environmental chemical engineering,
Год журнала:
2023,
Номер
11(6), С. 111555 - 111555
Опубликована: Ноя. 24, 2023
Biosurfactants
are
a
group
of
amphiphilic
compounds
biosynthesized
by
different
animals,
plants,
and
microbial-based
resources.
They
possess
surface-active
properties
such
as
emulsification,
molecular
self-assembly,
the
reduction
surface/interfacial
tension.
This
review
aims
to
summarize
green
manufacturing
biosurfactants
via
bio-wastes
valorization.
Several
environmental/nutritional
factors
influencing
production
(e.g.,
carbon
sources,
nitrogen
temperature,
pH,
salts
concentration)
have
been
described.
The
superior
physicochemical
make
them
interesting
candidates
for
broad-scale
applications,
including
bioremediation
hydrocarbons/heavy
metals,
agricultural
formulations,
microbial
enhanced
oil
recovery
(MEOR).
Over
previous
decade,
research
on
has
substantially
increased
due
their
environmentally
friendly
behavior
capability
using
low-cost
waste
biomasses
"green
technology".
However,
industrial-scale
synthesis
faces
several
challenges
that
need
be
addressed
before
considering
commercialization.
Herein,
existing
possibilities
in
bioprocessing
applications
summarized
suggest
future
recommendations.
Tailored
can
broaden
scope
practical
realize
sustainable
circular
bioeconomy.
