Algae-derived electrodes in bioelectrochemical systems
Journal of environmental chemical engineering,
Journal Year:
2024,
Volume and Issue:
12(3), P. 112535 - 112535
Published: March 18, 2024
Language: Английский
Biological-chemical conversion process design and machine learning-related life cycle assessment: Bio-lubricant production in a real case study of South Korea
Yoon Jae Lee,
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Jaerak Ko,
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Oseok Kwon
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et al.
Journal of Environmental Management,
Journal Year:
2025,
Volume and Issue:
379, P. 124877 - 124877
Published: March 9, 2025
Language: Английский
Environmentally Friendly Process Design for Furan-based Long-chain Diesters Production Aiming for Bio-based Lubricant
Green Chemistry,
Journal Year:
2024,
Volume and Issue:
27(3), P. 607 - 622
Published: Nov. 21, 2024
The
tetrahydrofuran
diesters
were
successfully
synthesized,
demonstrating
wide
applicability
as
replacements
for
conventional
base
oils.
They
also
showed
a
35%
reduction
in
CO
2
emissions,
revealed
by
LCA
analysis.
Language: Английский
Application of Machine Learning to Model Waste Energy Recovery for Green Hydrogen Production: A Techno-Economic Analysis
Published: Jan. 1, 2023
Hydrogen
is
recognized
as
the
future
energy
carrier
which
could
be
used
in
various
sectors.
production
from
renewable
resources
(green
hydrogen)
has
gained
progressive
attention
during
last
decade.
Still,
big
challenge
remains
to
produce
green
hydrogen
at
a
more
competitive
price.
To
do
so,
hybrid
configurations
available
technologies
seem
an
optimal
option.
The
current
work
applies
machine
learning
approach
model
landfill
gas
focusing
on
recovery
potential.
so
algorithm
have
been
studied
and
after
several
filtration
process
improve
accuracy,
best
results
are
compared
with
models.
models
created
this
section
suggest
R-square
range
of
92-99%
slight
improvement.
After
validating
model,
it
input
describe
configuration
hydrogen.
characterized
direct-methane
reforming
moderate
temperatures
integrated
water
electrolysis.
Such
layout
conventional
including
steam
methane
upgrading
plant.
simulation
indicate
levelized
cost
below
2
€/kgH2
stack
price
achievable
thanks
internal
sections
that
improved
rate.
At
temperature
500°C,
conversion
ratio
proposed
same
layout.
Making
economic
substitution
without
compromising
production.
However,
Increasing
favours
systems.
Language: Английский
The Biotic Effects of Lignite on Humic Acid Components Conversion During Chicken Manure Composting
Published: Jan. 1, 2023
Targeted
regulation
of
composting
to
convert
organic
matter
into
humic
acid
(HA)
holds
significant
importance
in
compost
quality.
Owing
its
low
carbon
content,
chicken
manure
often
requires
supplements
promote
the
humification
progress.
The
addition
lignite
can
increase
HA
content
through
biotic
pathways,
however,
structure
was
not
explored.
PARAFAC
analysis
revealed
that
significantly
complexity
highly
humified
components
(C4).
improved
PPO
and
Lac
activity,
particularly
Lac,
during
thermophilic
cooling
phases.
abundance
transformation
functions
core
bacteria
also
indicated
influence
activity
microbial
components.
structural
equation
model
further
confirmed
had
a
direct
indirect
impact
on
enhancing
phenol
oxidase.
Therefore,
improve
pathways.
Language: Английский