Korean Journal of Environmental Agriculture,
Год журнала:
2023,
Номер
42(4), С. 358 - 370
Опубликована: Дек. 26, 2023
Composting
has
been
proposed
for
the
management
of
organic
waste,
and
resulting
products
can
be
used
as
soil
amendments
fertilizer.However,
emissions
greenhouse
gases
(GHGs)
such
CO
2
,
CH
4
N
O
produced
in
composting
are
considerable
concern.Hence,
various
additives
have
developed
adopted
to
control
GHGs.This
review
presents
different
during
summarizes
effects
on
GHGs
composting.Thirty-four
studies
were
reviewed,
their
results
showed
that
reduce
cumulative
emission
by
10.5%,
39.0%,
28.6%,
respectively,
composting.Especially,
physical
(e.g.,
biochar
zeolite)
a
greater
effect
mitigating
than
do
chemical
phosphogypsum
dicyandiamide).In
addition,
superphosphate
had
high
reduction
effect,
whereas
dicyandiamide
effect.This
implies
addition
superphosphate,
biochar,
contribute
GHG
emissions.Further
research
is
needed
find
novel
effectively
composting.
Sustainability,
Год журнала:
2025,
Номер
17(2), С. 538 - 538
Опубликована: Янв. 12, 2025
This
study
used
ceramsite
and
superphosphate
as
exogenous
additives
for
composting
garden
wastes.
It
investigated
the
changes
in
temperature,
pH,
lignocellulose,
enzyme
activity,
humic
substrates,
humification
parameters
during
process.
A
total
of
four
treatments—T0
(CK),
T1
(ceramsite),
T2
(superphosphate),
T3
(superphosphate
+
ceramsite)—were
tested
a
50-day
experiment.
was
found
that
formation
compost
substrate
could
be
increased
to
14.69%
under
action
ceramsite.
In
addition,
promoted
lignocellulose
degradation,
improved
enhanced
material
conversion
At
same
time,
also
substrates
but
less
effective
than
Ceramsite
is
best
additive
promoting
maturation.
Environmental Technology & Innovation,
Год журнала:
2024,
Номер
36, С. 103792 - 103792
Опубликована: Авг. 11, 2024
Chicken
manure,
corn
straw
and
oyster
shell
powder
(OSP)
were
used
as
raw
materials
for
organic-inorganic
combined
composting.
Experiments
designed
by
adding
different
amounts
of
OSP
(0
%,
20
40
%),
CK,
T1,
T2,
respectively.
In
final
composts,
the
pH
value
increased
to
8.72–9.08,
electrical
conductivity
ranged
from
2.08–3.82
mS·cm−1.
The
co-composting
could
effectively
reduce
ammonia
emissions
54.65
%
activate
calcium
component
37.5
%.
Addition
promoted
humification
humic
acid
86.1
This
calcium-based
compost
shells
(OSs)
activated
composting
was
plant
Brassica
napus
pot
experiment.
Compared
with
addition
after
composting,
significantly
growth
because
more
nitrogen,
humus
available
in
compost.
addition,
this
pH,
organic
matter
(OM)
exchangeable
content
acidic
soil.
general,
is
an
effective
method
realize
fertilizer
utilization
OSs.
process
make
full
use
achieve
nitrogen
retention
enhancement
during
meanwhile
morphology
can
be
high-quality
soil
conditioner
obtained.
Environmental Research Communications,
Год журнала:
2023,
Номер
5(11), С. 115012 - 115012
Опубликована: Ноя. 1, 2023
Abstract
Aerobic
composting
was
carried
out
in
a
greenhouse
using
home-made
compost
bins,
and
the
changes
humus(HS)
composition
of
composted
manure
with
different
proportions
wood
vinegar(WV)
added
to
pig
rice
straw
as
raw
materials
were
studied.
Since
temperature,
water
content
pH
very
from
those
summer
compost,
they
used
basic
evaluation
indices
maturity.
Rice
straw(RS)
Swine
(SM)
test
materials,
water-soluble
carbon
(C
WSS
),
extractable
humic
HE
HA
FA
)
HU
investigated,
humus
decomposition
coefficients
dynamically
analyzed.
The
findings
demonstrated
that
1.25%
1.75%
vinegar
affect
humification.
Meanwhile,
results
Ratio
absorbance
organic
substances
at
465
665
under
UV
spectrophotometer
(E4/E6)
indicated
aromatic
ring
WV
solution
more
stable
after
condensation,
hominin
HS
stabilizing
component
complete
concentration
1.75%.
Consequently,
this
study
revealed
efficient
stimulating
pile
cold
conditions.