Molecules,
Год журнала:
2023,
Номер
28(3), С. 1063 - 1063
Опубликована: Янв. 20, 2023
Vinasses
represent
important
final
disposal
problems
due
to
their
physical-chemical
composition.
This
work
analyzed
the
composition
of
tequila
vinasses
and
increased
5-hydroxymethylfurfural,
furfural,
phenolic
compounds
using
thermal
hydrolysis
with
hydrogen
peroxide
as
a
catalyst.
A
statistical
Taguchi
design
was
used,
UPLC-MS
(XEVO
TQS
Micro)
analysis
determined
presence
increase
components.
The
treatment
at
130
°C,
40
min,
0.5%
catalyst
presented
highest
for
5-HMF
(127
mg/L),
furfural
(3.07
phenol
chlorogenic
(0.36
vanillic
acid
(2.75
mg/L).
Additionally,
removal
total
sugars
(57.3%),
sucrose
(99.3%),
COD
(32.9%).
For
T130:30m:0P
syringic
(0.74
mg/L)
coumaric
(0.013
acids
obtained
increase,
T120:30m:1P
3-hydroxybenzoic
(1.30
sinapic
(0.06
acid.
revaluation
through
treatments
provides
guidelines
reduce
impact
generated
on
environment.
ABSTRACT
Improper
soil
management
for
the
development
of
important
crops
worldwide
can
jeopardize
carbon
(C)
storage
and
organic
matter
(SOM)
health.
It
was
postulated
that
application
vinasse
to
sugarcane
under
control
agricultural
machinery
could
increase
C
stocks
improve
aggregate
stability
index,
porosity
density,
thus
ensuring
better
root
penetration.
Therefore,
in
this
study,
system
based
on
rainfed
with
(RV),
irrigated
(I)
(IV)
studied
a
tropical
environment
determine
physical
chemical
properties
soil.
The
experimental
design
randomized
blocks
five
replicates,
contents
stocks,
total
porosity,
resistance
penetration,
index
(ASI)
within
rows
between
were
analyzed
at
0–10-
10–20-
cm
depth.
RV
IV
treatments
promoted
same
potassium
concentrations
row
cultivation.
exhibited
highest
ASI
(74%
77%
10–20-cm
depth)
stored
approximately
70%
more
than
I
management.
use
preserved
conditions
soil,
particularly
inter-row
area,
by
reducing
surface
layer
compaction
increasing
moisture
thereby
representing
sustainable
long-term
system.
ACS Applied Bio Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Май 5, 2025
Apart
from
its
role
in
agriculture,
the
contribution
of
sugarcane
industry
and
related
sectors
toward
global
economy
is
seemingly
great.
Hence,
it
imperative
to
adopt
maximum
possible
ways
completely
recover
stored
chemical
energy
generate
additional
revenue
thereby
ensure
sustainability
sugarcane-related
industries
by
surmounting
regional/seasonal
limitations
associated
with
cultivation.
So,
present
Review
aims
highlight
importance
crops
comprehensively
discussing
value
byproducts
industrial
waste
generated
during
processing
sugarcane.
The
various
strategies
reported
so
far
for
effective
recovery
bioenergy
components
are
discussed
a
special
emphasis
on
technologies
capable
converting
into
electrical
or
fuel.
As
fraction
harvesting
high,
standing
close
"waste-to-energy"
concept
most
rewarding
ones,
suitable
complete
recovery.
microbial
fuel
cell
(MFC)
technology
that
offers
dual
benefits
terms
management
power
generation
receiving
much
attention.
status
technological
developments
MFCs
possibilities
developing
hybrid
through
their
integration
existing
sugar
strategies,
further
enhance
exploitation
byproducts,
rigorously
focusing
commercialization
possibilities.
