Fuel,
Год журнала:
2023,
Номер
344, С. 128107 - 128107
Опубликована: Март 24, 2023
Hydrogen
is
an
energy
carrier
that
can
be
utilized
in
various
applications,
including
power
plants,
the
synthesis
of
high-value
products,
and
clean
transportation
fuels
without
emissions.
Hence,
hydrogen
a
potential
candidate
replace
fossil
reduce
environmental
pollution.
The
high
demand
for
plastics
driving
production
rate
to
increase
yearly,
leading
great
accumulation
plastic
waste
materials
resulting
severe
burden
on
environment.
Thermo-catalytic
conversion
other
promising
route
efficiently
provide
ideal
long-term
solution
necessary
overcome
this
challenge.
Developing
durable
high-efficiency
catalysts
immerge
from
wastes
industrial
scale
still
challenge
researchers.
This
study
comprehensively
summarizes
discusses
recently
published
literature
using
different
thermo-catalytic
processes,
pyrolysis,
pyrolysis-air
gasification,
pyrolysis-steam
reforming,
pyrolysis-
(CO2)
dry
pyrolysis-plasma
catalysis.
scope
review
focus
influence
supports,
method
yield
hydrogen,
impact
several
crucial
reaction
parameters
like
pyrolysis
temperature,
catalytic
catalyst
plastic,
steam
ratios
inclusive
as
well.
conclusions
will
extremely
valuable
researchers
interested
sustainable
generation
H2
materials.
Green Chemistry,
Год журнала:
2022,
Номер
24(12), С. 4703 - 4727
Опубликована: Янв. 1, 2022
Circular
economy
approach
for
various
agrowaste-based
bioplastic
and
biocomposite
systems
with
potential
applications
in
the
protection
of
food
products
extension
their
shelf
life.
Environmental Chemistry Letters,
Год журнала:
2022,
Номер
20(6), С. 3631 - 3656
Опубликована: Июль 26, 2022
Abstract
Solid
wastes
from
domestic,
industrial
and
agricultural
sectors
cause
acute
economic
environmental
problems.
These
issues
can
be
partly
solved
by
anaerobic
digestion
of
wastes,
yet
this
process
is
incomplete
generates
abundant
byproducts
as
digestate.
Therefore,
cultivating
mixotrophic
algae
on
digestate
appears
a
promising
solution
for
nutrient
recovery,
pollutant
removal
biofuel
production.
Here
we
review
algal
cultivation
waste
with
focus
types
characterization,
recycling
in
agriculture,
contaminants,
production
biofuels
such
biogas,
bioethanol,
biodiesel
dihydrogen.
We
also
discuss
applications
cosmetics
economical
aspects.
Mixotrophic
completely
removes
ammonium,
phosphorus,
17β-estradiol
diluted
digestate,
62%
zinc,
84%
manganese,
74%
cadmium
99%
copper.
Fuel,
Год журнала:
2023,
Номер
344, С. 128107 - 128107
Опубликована: Март 24, 2023
Hydrogen
is
an
energy
carrier
that
can
be
utilized
in
various
applications,
including
power
plants,
the
synthesis
of
high-value
products,
and
clean
transportation
fuels
without
emissions.
Hence,
hydrogen
a
potential
candidate
replace
fossil
reduce
environmental
pollution.
The
high
demand
for
plastics
driving
production
rate
to
increase
yearly,
leading
great
accumulation
plastic
waste
materials
resulting
severe
burden
on
environment.
Thermo-catalytic
conversion
other
promising
route
efficiently
provide
ideal
long-term
solution
necessary
overcome
this
challenge.
Developing
durable
high-efficiency
catalysts
immerge
from
wastes
industrial
scale
still
challenge
researchers.
This
study
comprehensively
summarizes
discusses
recently
published
literature
using
different
thermo-catalytic
processes,
pyrolysis,
pyrolysis-air
gasification,
pyrolysis-steam
reforming,
pyrolysis-
(CO2)
dry
pyrolysis-plasma
catalysis.
scope
review
focus
influence
supports,
method
yield
hydrogen,
impact
several
crucial
reaction
parameters
like
pyrolysis
temperature,
catalytic
catalyst
plastic,
steam
ratios
inclusive
as
well.
conclusions
will
extremely
valuable
researchers
interested
sustainable
generation
H2
materials.
