IntechOpen eBooks,
Год журнала:
2024,
Номер
unknown
Опубликована: Окт. 21, 2024
This
chapter
explores
recent
advancements
in
materials
driving
innovation
within
air
conditioning
technologies.
Traditional
face
limitations
efficiency
and
sustainability,
prompting
a
shift
toward
novel
solutions.
Nanostructured
materials,
with
their
enhanced
heat
transfer
properties,
are
gaining
prominence,
alongside
advanced
exchanger
offering
superior
performance
durability.
Sustainability
is
prioritized
through
the
adoption
of
eco-friendly
smart
Shape
memory
alloys
enable
adaptive
systems
for
optimized
comfort
energy
efficiency.
While
challenges
persist
cost
scalability,
interdisciplinary
efforts
propelling
field
future
greener,
more
efficient
Advances in computational intelligence and robotics book series,
Год журнала:
2025,
Номер
unknown, С. 237 - 270
Опубликована: Фев. 7, 2025
Digital
transformation
has
become
the
top
priority
for
80%
of
sports
companies
worldwide,
but
statistics
show
that
between
70
and
95%
all
digital
projects
fail
due
to
significant
varied
challenges
businesses
face
during
process.
This
is
because
strategy,
not
technology,
drives
transformation,
without
a
mature
model,
success
unlikely.
chapter
explores
transformative
role
Artificial
Intelligence
(AI)
in
energy
management
within
environments.
As
modern
stadiums
increasing
demands
advanced
technologies
large-scale
operations,
AI
emerges
as
pivotal
solution
optimizing
control.
The
examines
how
tools,
such
predictive
analytics,
machine
learning,
real-time
monitoring,
contribute
energy-efficient
practices.
These
tools
enable
smart
lighting,
HVAC
systems,
other
energy-consuming
components
stadiums,
leading
reduced
operational
costs
enhanced
sustainability.
Additionally,
AI-driven
offer
insights
into
athletes'
consumption,
allowing
tailored
training
regimes
enhance
performance
while
minimizing
waste.
Through
various
case
studies,
including
integration
major
events
like
Olympic
Games,
highlights
potential
revolutionize
consumption
venues,
contributing
more
sustainable
technologically
future
management.
Energies,
Год журнала:
2025,
Номер
18(5), С. 1017 - 1017
Опубликована: Фев. 20, 2025
Earth-Air
Heat
Exchangers
(EAHEs)
provide
a
compelling
solution
for
improving
building
energy
efficiency
by
harnessing
the
stable
subterranean
temperature
to
pre-treat
ventilation
air.
This
comprehensive
review
delves
into
foundational
principles
of
EAHE
operation,
meticulously
examining
heat
and
mass
transfer
phenomena
at
ground-air
interface.
study
investigates
impact
key
factors,
including
soil
characteristics,
climatic
conditions,
crucial
system
design
parameters,
on
overall
performance.
Beyond
independent
applications,
this
explores
integration
EAHEs
with
diverse
array
renewable
technologies,
such
as
air-source
pumps,
photovoltaic
thermal
(PVT)
panels,
wind
turbines,
fogging
systems,
water
spray
channels,
solar
chimneys,
systems.
exploration
aims
clarify
potential
hybrid
systems
in
achieving
enhanced
efficiency,
minimizing
environmental
impact,
robustness
system.
International Journal of Science and Technology Research Archive,
Год журнала:
2024,
Номер
6(2), С. 012 - 020
Опубликована: Апрель 12, 2024
This
review
paper
provides
a
comprehensive
examination
of
energy-efficient
Heating,
Ventilation,
and
Air
Conditioning
(HVAC)
technologies
for
sustainable
buildings.
The
focus
is
on
exploring
the
latest
advancements,
benefits,
challenges,
future
prospects
in
realm
HVAC
systems
designed
to
enhance
energy
efficiency
promote
sustainability
building
operations.
begins
with
an
overview
importance
context
design
operation.
It
underscores
critical
role
reducing
consumption,
minimizing
environmental
impact,
enhancing
occupant
comfort
well-being.
delves
into
various
categories
technologies,
including
advanced
heating
cooling
systems,
ventilation
strategies,
smart
controls.
Each
category
examined
detail,
highlighting
key
features,
performance
metrics,
real-world
applications.
Furthermore,
evaluates
benefits
associated
such
as
significant
savings,
reduced
operating
costs,
improved
indoor
air
quality,
enhanced
resilience.
also
discusses
potential
challenges
barriers
adoption,
high
upfront
complexity
implementation,
retrofitting
existing
explores
emerging
trends
innovations
field
integration
renewable
sources,
sensors
actuators,
predictive
maintenance
algorithms.
These
advancements
have
further
optimize
performance,
increase
system
reliability,
enable
proactive
management
systems.
In
conclusion,
emphasizes
cornerstone
practices.
need
continued
research,
innovation,
collaboration
among
stakeholders
overcome
unlock
full
contributing
more
built
environment.
Overall,
this
valuable
insights
current
state
their
applications,
while
opportunities
crucial
achieving
goals
sector.
INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT,
Год журнала:
2025,
Номер
09(01), С. 1 - 6
Опубликована: Янв. 13, 2025
The
refrigeration
industry
has
changed
with
the
incorporation
of
smart
technology
and
introduction
commercial
connected
coolers.
These
are
a
class
advanced
systems
that
apply
IoT
for
improved
efficiency
in
operation,
energy
consumption,
quality
products
many
industries
such
as
retail,
food
storage,
healthcare,
logistics.
features
coolers
involve
sensors,
real-time
monitoring,
automated
control
advantages
predictive
maintenance,
remote
optimization,
data-driven
decision-making.
To
be
able
to
deploy
those
into
reality,
several
challenges
like
very
high
initial
cost,
integration
complexity,
security-related
issues
must
met.
This
article
will
discuss
key
elements
comprising
IoT-enabled
coolers,
their
applications
across
industries,
benefits
they
come
with,
organizations
surmount
if
ever
reach
full
potential.
It
also
touches
on
future
trends
technology,
focusing
innovative,
sustainable,
solutions
factors
refrigeration.
Keywords:
refrigeration,
applications,
cooling
systems,
trends,
innovation,
industrial
sustainability
International Journal of Computational and Experimental Science and Engineering,
Год журнала:
2025,
Номер
11(2)
Опубликована: Март 29, 2025
The
concept
of
green
residential
housing
is
new,
whereby
it
incorporates
special
attributes
that
was
expanded
from
the
product
concept.
Based
on
previous
scholars’
explanations,
three
important
for
includes
structural,
locational,
and
facilities.
It
must
be
understood
any
new
such
as
“green
residential”
introduces
to
market
will
not
immediately
accepted
by
buyers.
buyers
show
their
attitude
either
positive
or
negative
reflects
tendency
like
dislike
This
research
very
significant
understand
attitude-behaviour
gap
house
with
expansion
into
real
estate
property
industry.
main
objective
this
determine
significance
relationship
between
buyers’
intention
purchase
housing.
methodology
quantitative
survey
method,
388
fill
in
questionnaire
via
face-to-face
self-administered
online
platform
Internet
WhatsApp.
analysis
findings
using
Spearman
Coefficient
Correlation
rho
(α)
shows
overall,
towards
locational
has
strong
Nevertheless,
study
found
another
two
i.e.
structural
facilities
have
weak
relationships
are
significance.
beneficial
developers
policy
makers
understanding
behaviour.
Buildings,
Год журнала:
2025,
Номер
15(7), С. 1123 - 1123
Опубликована: Март 30, 2025
Buildings
consume
nearly
40%
of
global
energy,
necessitating
innovative
strategies
to
balance
energy
efficiency
and
occupant
comfort.
While
shading
ventilation
are
critical
sustainable
design,
they
often
studied
independently,
leaving
gaps
in
understanding
their
combined
potential.
This
study
provides
a
novel
quantitative
analysis
dynamic
strategies,
using
dataset
5000
simulations
IDA
Indoor
Climate
Energy
(IDA
ICE)
reveal
the
synergies
trade-offs
building
performance.
Four
distinct
scenarios
analyzed:
minimal
limited
(shading
factor
Sf
=
0.0,
ACH
0.5),
optimized
moderate
(Sf
0.5,
1.5),
enhanced
dynamically
adjusted,
2.5),
high
with
maximum
1.0,
3.0).
The
results
show
progressive
reduction
thermal
discomfort,
predicted
percentage
dissatisfied
(PPD)
decreasing
from
>80%
first
scenario
~25%
~15%
scenario.
demand
increases
by
up
highest
scenario,
highlighting
trade-offs.
These
findings
underscore
importance
integrating
ventilation,
providing
actionable
recommendations
such
as
night
cooling
that
can
reduce
discomfort
improve
30%.
By
bridging
research
gaps,
this
advances
design
offers
robust
framework
for
creating
energy-efficient,
comfortable
buildings.
Civil and Environmental Engineering,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 16, 2025
Abstract
Inefficient
building
façades
pose
a
significant
challenge
in
modern
architectural
design,
often
leading
to
poor
indoor
comfort,
increased
energy
consumption,
and
negative
environmental
impacts.
This
research
addresses
the
pressing
problem
of
optimizing
façade
designs
improve
quality
while
reducing
demands.
The
primary
goal
this
study
is
investigate
relationship
between
various
characteristics
such
as
materials,
colour,
texture,
orientation
their
effects
on
comfort
efficiency.
hypothesis
posits
that
an
integrated
approach
design
can
significantly
enhance
thermal
regulation,
natural
lighting,
acoustic
performance,
thus
fostering
more
comfortable
environment.
To
test
hypothesis,
employs
mixed-methods
approach,
incorporating
quantitative
data
from
field
qualitative
insights
comprehensive
questionnaires
distributed
occupants.
Key
findings
reveal
specific
strategies,
including
strategic
orientation,
optimized
use
light,
thoughtful
material
selection,
lead
notable
improvements
air
circulation,
noise
control.
For
instance,
buildings
with
south-facing
utilize
high-performance
glazing
effectively
harness
solar
for
heating
minimizing
glare.
Additionally,
incorporation
green
roofs
living
walls
has
been
shown
insulation
reduce
pollution.
underscores
critical
need
architects
designers
prioritize
analysis
processes.
By
doing
so,
they
create
energy-efficient,
aesthetically
pleasing,
environments
respond
evolving
climate
challenges.
Ultimately,
advocates
integration
scientific
principles
innovative
approaches
practice,
promoting
sustainability
occupant
well-being.
