Applied Sciences,
Journal Year:
2024,
Volume and Issue:
14(11), P. 4376 - 4376
Published: May 22, 2024
As
a
case
study
on
sustainable
energy
use
in
educational
institutions,
this
examines
the
design
and
integration
of
solar–hydrogen
storage
system
within
management
framework
Kangwon
National
University’s
Samcheok
Campus.
This
paper
provides
an
extensive
analysis
architecture
integrated
such
system,
which
is
necessary
given
increasing
focus
renewable
sources
requirement
for
effective
management.
starts
with
survey
literature
hydrogen
techniques,
solar
technologies,
current
university
systems.
In
order
to
pinpoint
areas
need
improvement
chances
progress,
it
also
looks
at
earlier
research
study’s
methodology
describes
architecture,
includes
fuel
cell
integration,
electrolysis
production,
harvesting,
storage,
customized
needs
university.
explores
consumption
characteristics
Campus
University
recommendations
scalability
scale
suggested
by
designing
three
systems
microgrids
EMS
Optimization
solar–hydrogen,
hybrid
storage.
To
guarantee
safe
functioning,
control
strategies
safety
considerations
are
covered.
Prototype
creation,
testing,
validation
all
part
implementation
process,
ends
thorough
system’s
into
university’s
grid.
The
effectiveness
its
effect
campus
patterns,
financial
sustainability,
comparisons
conventional
assessed
findings
discussion
section.
Problems
that
arise
during
addressed
along
fixes,
directions
further
research—such
as
issues
technology
developments—are
indicated.
sheds
important
light
viability
efficiency
academic
environments,
particularly
regard
accomplishing
objectives.
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(4), P. e26692 - e26692
Published: Feb. 1, 2024
Development
of
the
multigeneration
plants
based
on
simultaneous
production
water
and
energy
can
solve
many
current
problems
these
two
major
fields.
In
addition,
integration
fossil
power
with
waste
heat
recovery
processes
in
order
to
prevent
release
pollutants
environment
simultaneously
cover
environmental
thermodynamic
improvements.
Besides,
addition
a
carbon
dioxide
(CO
Journal of Energy Storage,
Journal Year:
2024,
Volume and Issue:
88, P. 111556 - 111556
Published: April 6, 2024
This
research
paper
presents
an
in-depth
development
and
investigation
of
a
solar-based
energy
system
incorporating
thermal
storage
to
produce
electricity,
heat,
fresh
water,
hydrogen
cover
the
needs
community
for
better
sustainability.
The
proposed
integrated
utilizes
concentrated
solar
plant
generate
process
offering
novel
approach
address
growing
demand
diverse
outputs.
assessment
employs
first
second
laws
thermodynamics,
focusing
on
both
exergy
analyses.
A
dynamic
analysis,
using
real-world
data
where
available,
is
conducted
ensure
alignment
between
supply.
Two
distinctive
case
studies
are
presented
highlight
versatility
system.
In
study
1,
power
focuses
only
electricity
production.
calculations
made
based
assumption
that
6%
total
emitted
by
sun
stored.
work
found
be
316,466.00
kWh.
Additionally,
as
result
24-hour
1
exhibits
outstanding
performance,
reaching
efficiency
31.66%
33.36%,
respectively.
Emphasizing
enhanced
flexibility
help
contribute
tailored
successful
production
strategy.
Case
2
examines
integration
generation
with
heating
cooling
systems,
well
addressing
clean
water.
generation,
load,
load
capacities
obtained
1,299,247.95,
531,588.54,
555,708.16
kW/day,
system's
high-power
output
facilitates
daily
desalination
processes
production,
producing
29,018.10
kg
369,013.52
m3
water
in
single
day.
As
performance
provides
overall
efficiencies
20.68%
16.87%,
holistic
effectively
addresses
society's
line
sustainability
goals.
parametric
provide
valuable
insights
into
resilience
applicability
scenarios,
supporting
ongoing
efforts.
Beyond
reducing
carbon
emissions
improving
air
quality,
long-term
benefits
make
it
promising
solution
achieving
greener
more
resilient
communities,
acknowledging
need
overcome
challenges
its
implementation.
Deep Underground Science and Engineering,
Journal Year:
2024,
Volume and Issue:
3(3), P. 286 - 301
Published: May 23, 2024
Abstract
This
study
delves
into
the
latest
advancements
in
machine
learning
and
deep
applications
geothermal
resource
development,
extending
analysis
up
to
2024.
It
focuses
on
artificial
intelligence's
transformative
role
industry,
analyzing
recent
literature
from
Scopus
Google
Scholar
identify
emerging
trends,
challenges,
future
opportunities.
The
results
reveal
a
marked
increase
intelligence
(AI)
applications,
particularly
reservoir
engineering,
with
significant
observed
post‐2019.
highlights
AI's
potential
enhancing
drilling
exploration,
emphasizing
integration
of
detailed
case
studies
practical
applications.
also
underscores
importance
ongoing
research
tailored
AI
light
rapid
technological
trends
field.
