The
main
objective
was
to
explore
the
theories
and
practices
of
bioclimatic
architecture,
highlighting
its
potential
mitigate
environmental
impact
improve
quality
life
through
sustainable
building
design,
as
a
consequence,
investigate
how
architecture
energy
efficiency
can
contribute
development
reduction
buildings.Methodology:
An
empirical
conceptual
literature
review
on
carried
out,
based
academic
references
relevant
documents
provide
an
overview
current
research
topic.Academic
databases
such
Scopus,
Science
Direct
Google
Scholar
were
searched
using
terms
related
sustainability.
A
total
118
articles
analyzed,
which
14
selected
relevant:Results:
It
found
that
focuses
design
built
spaces
integrate
with
natural
environment,
optimizing
use
resources
prioritizing
thermal
sensory
comfort.Tactics
ventilation
materials
identified,
well
need
for
adaptable
solutions
in
different
socioeconomic
contexts,
especially
Peru
where
adoption
these
is
limited.Main
Conclusions:
Bioclimatic
crucial
address
contemporary
challenges
by
promoting
aligns
climatic
environment.This
approach
not
only
seeks
comfort
users,
but
also
aims
significantly
reduce
carbon
footprint
buildings.It
highlighted
recovery
cultural
strategies,
courtyards,
be
key
more
architecture.
Journal of Asian Architecture and Building Engineering,
Journal Year:
2025,
Volume and Issue:
unknown, P. 1 - 20
Published: Jan. 18, 2025
This
study
investigates
natural
ventilation
strategies
in
Javanese
vernacular
houses
to
enhance
sustainable
building
design
tailored
local
climates
and
promote
comfort
environmental
sustainability
communities.
It
examines
adaptations
of
these
rural
(Saradan)
urban
(Laweyan)
contexts
using
a
comprehensive
methodology
comprising
document
analysis,
literature
review,
stakeholder
interviews,
case
studies.
Insights
from
classical
texts
architectural
records
inform
traditional
values
principles
related
energy
sustainability,
supplemented
by
perspectives
gathered
through
interviews
with
homeowners,
architects,
cultural
experts
on
integrating
into
practices.
The
findings
reveal
that
Saradan's
areas,
expansive
layouts
elements
effectively
facilitate
ventilation,
utilizing
large
courtyards
strategically
positioned
windows
optimize
airflow
thermal
comfort.
In
contrast,
Laweyan's
setting
employs
compact
designs
smaller
openings
internal
manage
mitigate
heat
accumulation.
illustrates
how
practices
adapt
contemporary
contexts,
supporting
efficiency
occupant
well-being
while
reconciling
technological
advancements
heritage
preservation.
offers
insights
for
researchers,
policymakers
develop
guidelines
innovations
across
diverse
climatic
conditions
explore
their
socio-economic
impacts.
Scientific Reports,
Journal Year:
2025,
Volume and Issue:
15(1)
Published: Jan. 2, 2025
Marine
climate
significantly
influences
the
spatial
morphology
of
coastal
village's
streets.
However,
research
on
villages
lacks
parameterization
analysis
that
can
cope
with
complex
climatic
environment.
Focusing
street
in
Fuzhou
City,
China,
this
paper
studies
relationship
between
space
and
impact
extreme
heat
wind
conditions.
Thermal
comfort
degree
average
speed
are
main
optimization
objectives.
By
using
techniques
to
establish
a
dynamic
model
conducting
multi-objective
driven
by
genetic
algorithms,
influence
morphological
indicators
is
revealed.
The
conclusions
study
indicate
have
more
significant
environment
than
interfaces
either
side
street.
thermal
within
greater
indicators.
This
concludes
proposing
ranking
key
along
their
optimal
intervals
for
adapted
marine
climate.
indicators,
listed
order
importance,
include
appropriate
widths
(2.3–4.3
m),
eave
height
single-storey
buildings
(2.0–4.6
double-storey
(5.4–7.7
depth
(0.8–1.1
m
brick-timber
dwellings
0.3–0.6
masonry
dwellings),
roof
slope
(20–28°),
entrance
(0.8–1.3
balcony
overhang
(0.6–0.7
colonnade
(1.5–2.4
orientation
(NE-SW)
building
(3.2–5.0
m).
provides
an
empirical
reference
climate-adapted
village
design
renewal.
Sustainability,
Journal Year:
2025,
Volume and Issue:
17(7), P. 3066 - 3066
Published: March 30, 2025
As
climate
challenges
intensify,
architectural
design
must
reconcile
energy
efficiency
with
environmental
adaptation.
This
study
investigates
how
two
skywell
geometries
in
Kunming’s
traditional
One-Seal
dwellings
(Yikeyin)
optimize
seasonal
thermal
and
ventilation
performance.
Combining
field
analysis
simulations,
a
comparative
of
depth-to-width
ratios
reveals
that
larger
proportions
enhance
summer
airflow
but
exacerbate
winter
heat
loss,
while
smaller
stabilize
conditions.
Vertical
stratification
highlights
distinct
microclimates
across
floors,
skywells
exhibiting
pronounced
fluctuations.
The
findings
affirm
the
climate-responsive
intelligence
embedded
vernacular
architecture,
demonstrating
its
relevance
for
contemporary
sustainable
design.
By
bridging
wisdom
modern
green
building
practices,
this
work
advances
strategies
climate-resilient
architecture
rural
habitat
enhancement,
prioritizing
both
ecological
balance
human
comfort.
Buildings,
Journal Year:
2025,
Volume and Issue:
15(7), P. 1123 - 1123
Published: March 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.
Buildings,
Journal Year:
2024,
Volume and Issue:
14(7), P. 2128 - 2128
Published: July 11, 2024
The
Italian
territory
is
characterized
by
a
big
increase
in
energetic
demand,
especially
for
cooling,
mainly
related
to
climate
change
but
also
the
poor
quality
of
consistent
construction
sector,
such
as
suburban
1960–1980
building
stock.
At
same
time,
cost
fuel
and
electricity
due
recent
war
events
forces
us
find
alternative
solutions
save
energy
buildings.
This
study
proposes
envelope
passive
design
strategies
improve
efficiency
residential
buildings
Mediterranean
climate,
which
typical
territory.
main
purpose
provide
an
overview
potential
measures
response
above-mentioned
issues
consequently
increasing
restrictions
regulations
(passive
NzeB).
A
categorization
provided
exploring
three
different
behaviors:
heat
reduction,
gain,
protection.
Specific
energy-efficient
retrofit
are
investigated
according
this
classification,
including
solar
greenhouses,
natural
ventilation
techniques,
radiative,
convective,
conductive
transfer
through
opaque
transparent
envelopes.
As
responsible
heating
exchange
accounts
50%
overall
balance,
it
concluded
that
“ad
hoc”
envelopes
can
significantly
thermal
performance
