The Evolution of AI Applications in the Energy System Transition: A Bibliometric Analysis of Research Development, the Current State and Future Challenges
Energies,
Journal Year:
2025,
Volume and Issue:
18(6), P. 1523 - 1523
Published: March 19, 2025
The
transformation
of
energy
markets
is
at
a
crossroads
in
the
search
for
how
they
must
evolve
to
become
ecologically
friendly
systems
and
meet
growing
demand.
Currently,
methodologies
based
on
bibliographic
data
analysis
are
supported
by
information
communication
technologies
have
necessary.
More
sophisticated
processes
being
used
systems,
including
new
digitalization
models,
particularly
driven
artificial
intelligence
(AI)
technology.
In
present
review,
342
documents
indexed
Scopus
been
identified
that
promote
synergies
between
AI
transition
(ET),
considering
time
range
from
1990
2024.
methodology
includes
an
evaluation
keywords
related
areas
ET.
analyses
extend
review
authorship,
co-authorship,
AI’s
influence
system
subareas.
integration
resources,
supply
demand,
which
renewable
sources
play
leading
role
end-customer
level,
now
conceived
as
both
producer
consumer,
intensively
studied.
results
has
experienced
notable
growth
last
five
years
will
undoubtedly
future
achieving
decarbonization
goals.
Among
applications
it
enable
be
design
up
execution
start-up
power
plants
with
control
optimization.
This
study
aims
baseline
allows
researchers,
legislators,
government
decision-makers
compare
their
benefits,
ambitions,
strategies,
novel
formulating
policies
field.
developments
scope
sector
were
explored
relation
domain
parts
chain.
While
these
involve
complex
analysis,
techniques
provide
powerful
solutions
designing
managing
high
penetration.
represents
fundamental
shift
market
design,
enabling
more
efficient
sustainable
transitions.
Future
lines
research
could
focus
demand
forecasting,
dynamic
adjustments
distribution
different
generation
sources,
storage,
usage
Language: Английский
Power Quality Improvement with Three-Phase Shunt Active Power Filter Prototype Based on Harmonic Component Separation Method with Low-Pass Filter
Energies,
Journal Year:
2025,
Volume and Issue:
18(3), P. 556 - 556
Published: Jan. 24, 2025
This
work
contributes
to
both
Romania’s
and
the
European
Union’s
energy
policies
by
highlighting
research
results
obtained
within
Dunarea
de
Jos
University
of
Galati,
but
also
through
technological
transfer
this
knowledge
industry.
In
order
improve
power
quality
nonlinear
loads
connected
electrical
grid,
a
three-phase
shunt
active
filter
prototype
based
on
Harmonic
Component
Separation
Method
with
Low-Pass
Filter
was
used.
The
is
at
Point
Common
Coupling
compensate
for
individual
or
even
all
them
simultaneously.
Therefore,
filters
can
be
used
factor
reduce
harmonic
distortion
supplies,
processes
subsequently
additional
loads,
thus
improving
efficiency.
composed
side
(three-phase
insulated
gate
bipolar
transistor
bridge,
DC
link
capacitor
precharge
system,
inductive
filter)
control
(gate
drive
circuits,
subsystems,
signal
acquisition
system).
strategy
principle
separating
components
low-pass
filter,
implemented
authors
industrial
prototype.
paper,
main
technical
features
are
specified.
paper
involved
three
cascaded
loops:
voltage
loop,
current
loop
phase-locked
loop.
Both
simulation
experimental
shunt-type
were
obtained.
By
analyzing
waveforms
supply
source
in
two
cases
(with
without
an
filter),
decrease
total
demonstrated,
THDu
THDi
case
connection.
using
Field-Programmed
Gate
Array
processing
platform,
powerful
computational
speed
exploited
implement
test
bench.
Conducting
harmonics
mitigation
increased
efficiency
system
decreasing
respective
Joule
losses.
energy-saving
feature
led
added
value
parallel
filter.
Through
performed
laboratory
tests,
demonstrated
feasibility
proposed
solution
accordance
Research
Technological
Development
Policy,
development
innovation
ecosystem
taken
into
consideration.
unified
efficient
integration
specific
actors
(enterprises,
institutes,
universities
entrepreneurs)
achieved.
Language: Английский
Maximization of Solar Potential Use for Industrial Applications
Guillermo Martínez-Rodríguez,
No information about this author
Cristobal Díaz-de-León,
No information about this author
Juan-Carlos Baltazar
No information about this author
et al.
Energy,
Journal Year:
2025,
Volume and Issue:
unknown, P. 136074 - 136074
Published: April 1, 2025
Language: Английский
Biomethane as a Fuel for Energy Transition in South America: Review, Challenges, Opportunities, and Perspectives
Energies,
Journal Year:
2025,
Volume and Issue:
18(11), P. 2967 - 2967
Published: June 4, 2025
This
review
examines
the
current
status
of
biomethane
development
in
South
America
through
a
comprehensive
comparative
analysis
national
legislation,
scientific
literature,
and
institutional
data
across
all
American
countries.
The
methodology
consisted
systematic
technical
regulatory
documents
to
assess
production,
commercialization,
utilization
throughout
region.
findings
indicate
that
remains
largely
underdeveloped
most
countries,
primarily
due
fragmented
data,
inadequate
infrastructure,
lack
targeted
public
policies.
Brazil
emerges
as
regional
leader,
backed
by
robust
legal
frameworks
such
RenovaBio
program,
Future
Fuel
Law,
specific
regulations
governing
landfill
waste
treatment
quality
standards.
In
contrast,
other
countries
hold
considerable
biogas
potential
but
financial
incentives
required
expand
production.
principal
contribution
this
study
is
its
assessment
America,
providing
country-level
alongside
direct
comparisons
with
global
leaders
both
production
policy.
By
mapping
infrastructure
conditions,
energy
strategies
continent,
offers
strategic
reference
support
future
research,
investment,
policy
development.
Language: Английский