Environmental Technology & Innovation,
Год журнала:
2023,
Номер
32, С. 103447 - 103447
Опубликована: Ноя. 1, 2023
As
the
global
population
burgeons
and
economic
demands
escalate,
imperative
to
explore
alternative
energy
sources
intensifies.
This
study
systematically
addresses
challenges
posed
by
growing
demand
for
renewable
its
conversion
into
biofuels,
with
a
focus
on
biodiesel
as
sustainable
conventional
diesel.
An
in-depth
investigation
glycerol
byproduct,
notable
consequence
of
production,
is
conducted
unlock
latent
potential
through
advanced
methodologies.
The
methodology
entails
meticulous
review
cutting-edge
advancements
in
industry
waste
management
techniques,
emphasizing
strategic
implementation
'Recover,
Recycle,
Reuse'
paradigm.
outcomes
substantiate
feasibility
importance
repositioning
glycerol,
elucidating
value-added
products.
delineates
significant
strides
management,
underscoring
critical
need
approach
mitigate
environmental
impact.
research
contributes
not
only
scientific
elucidation
biofuel
production
intricacies
but
also
champions
paradigm
shift
toward
more
technically
sound
future
within
industry.
Heliyon,
Год журнала:
2024,
Номер
10(11), С. e32428 - e32428
Опубликована: Июнь 1, 2024
The
treatment
of
flue
gases
has
become
a
crucial
area
interest
with
the
increasing
air
emissions
into
atmosphere
from
industries
involved
in
combustion
fossil
fuels
their
operations.
In
essence,
there
is
critical
need
for
effective
methods
more
than
ever.
Treatment
and
separation
are
now
demand
overall
industrial
operations
to
control
rate
gas
emissions.
major
culprit
this
wise
power
generating
industry.
associated
pollutants
carbon
dioxide,
sulfur
oxides,
trace
metals,
volatile
organic
compounds,
particulate
matters,
nitrogen
oxides.
However,
choice
technologies
be
utilized
requires
just
knowledge
process,
but
also
good
understanding
properties
pollutants.
This
review
explored
evaluated
various
processes
It
analyzed
performance
references
cost
efficiency,
advantages
disadvantages,
principles
selection,
research
direction,
and/or
potential
opportunities
existing
technologies.
Processes,
Год журнала:
2023,
Номер
11(12), С. 3270 - 3270
Опубликована: Ноя. 22, 2023
The
protection
of
all
environmental
compartments
(water,
soil,
air)
is
great
interest
for
the
normal
functioning
life
on
Earth.
environment
systematically
polluted
with
different
concentrations
physical,
biological
and
chemical
pollutants.
For
purpose
protection,
numerous
in
situ
ex
biological,
physical
remediation
techniques
have
been
developed.
Most
limitations,
such
as
high
cost,
processing
time
or
feasibility.
In
general,
proven
to
be
most
environmentally
friendly
compared
techniques.
Furthermore,
an
extremely
complex
procedure
due
complexity
pollutant
composition.
Therefore,
implementation
individual
often
not
sufficient
adequate
environment.
Accordingly,
more
economical
efficient
remediation,
it
recommended
use
a
combination
that
should
meet
requirements
efficiency
treatment
duration.
Ultimately,
this
review
provides
concise
overview
recent
application
A
critical
existing
knowledge
through
search
relevant
literature
has
helped
assess
basic
challenges
limitations
arise
issue
well
providing
recommendations
guidelines
future
research.
Chemosphere,
Год журнала:
2023,
Номер
332, С. 138870 - 138870
Опубликована: Май 6, 2023
Odorous
volatile
organic
compounds
(VOCs)
deteriorate
the
quality
of
life
and
affect
human
health.
In
this
study,
a
process
was
developed
to
remove
an
odorous
VOC
using
combined
non-thermal
plasma
(NTP)
wet
scrubber
(WS)
system.
The
low
removal
efficiency
WSs
large
amount
ozone
generated
by
NTP
were
resolved.
Compared
decomposition
effects
when
WS
separately,
+
system
improved
ethyl
acrylate
(EA)
significantly
reduced
emissions.
maximum
EA
99.9%.
Additionally,
over
53.4%
100%
achieved
even
at
discharge
voltages
lower
than
4.5
kV.
Ozone
catalysis
confirmed
occur
in
Furthermore,
we
verified
by-products
such
as
residual
formaldehyde,
which
is
representative
intermediate
EA.
This
study
demonstrates
that
green
technology
for
removing
VOCs.
Methane,
Год журнала:
2024,
Номер
3(1), С. 122 - 148
Опубликована: Фев. 21, 2024
The
ongoing
yearly
rise
in
worldwide
methane
(CH4)
emissions
is
mostly
due
to
human
activities.
Nevertheless,
since
over
half
of
these
are
scattered
and
have
a
concentration
less
than
3%
(v/v),
traditional
physical–chemical
methods
not
very
effective
reducing
them.
In
this
context,
biotechnologies
like
biofiltration
using
methane-consuming
bacteria,
also
known
as
methanotrophs,
offer
cost-efficient
practical
approach
addressing
diffuse
CH4
emissions.
present
review
describes
recent
findings
processes
one
the
earliest
for
treating
polluted
air.
Specifically,
impacts
biotic
(such
cooperation
between
methanotrophs
non-methanotrophic
bacteria
fungi)
abiotic
factors
temperature,
salinity,
moisture)
that
influence
were
compiled.
Understanding
methanogenesis
methanotrophy
holds
significant
importance
development
innovative
agricultural
practices
industrial
procedures
contribute
more
favourable
equilibrium
greenhouse
gases.
integration
advanced
genetic
analyses
can
enable
holistic
approaches
unravelling
potential
biological
systems
mitigation.
This
study
pioneers
biopotential
offering
unprecedented
avenues
biotechnological
applications.
