International Multidisciplinary Scientific GeoConference SGEM ...,
Год журнала:
2024,
Номер
24, С. 389 - 396
Опубликована: Ноя. 1, 2024
The
present
research
evaluated
a
facade
alternative
to
reduce
the
indoor
temperature
of
buildings
in
Ecuadorian
Amazon
(Yantzaza,
Ecuador).
Three
scale
models
were
compared:
one
with
gabion
and
leafy
vegetables
(onion,
lettuce,
basil,
chamomile,
cabbage),
only,
clay
brick
(traditional)
facade.
Thermal
data
from
inside
analyzed
March
(warmest
month)
January
(coldest
month).
results
showed
that
between
13:00
15:00
2021,
plants
reduced
up
2�C
more
than
traditional
Cultivated
facades
increase
thermal
inertia
without
need
for
additional
materials
or
insulation,
making
it
an
environmentally
beneficial
solution.
This
could
be
useful
designing
cooler
sustainable
homes
hot
climates.
Buildings,
Год журнала:
2024,
Номер
14(9), С. 2950 - 2950
Опубликована: Сен. 18, 2024
This
study
investigates
the
innovative
use
of
street
puppet
theatre
performances
on
façades
commercial
buildings
to
stimulate
social
gatherings
in
smart
cities.
research
impact
a
unique
musical
show
held
throughout
2024
holiday
season
well-known
shopping
mall
El
Corte
Inglés
Madrid,
Spain.
utilises
both
quantitative
and
qualitative
methodologies,
such
as
space
syntax
analysis
empirical
observations.
It
uses
UCL
Depthmap
10
software
program
assess
urban
morphology
identify
integrated
segregated
areas.
Observations
video
recordings
were
conducted
analyse
behaviours
during
performances.
The
findings
reveal
that
these
attract
diverse
audiences
foster
engagement,
transforming
into
vibrant
public
spaces.
concludes
architecture
can
significantly
enhance
sociability
detached
demonstrates
this
particular
dynamic
façade
not
only
fosters
sustainability
by
creating
lively
spaces
but
also
contributes
economic
attracting
potential
customers
centres.
advances
discourse
city
development
utilisation,
offering
valuable
insights
for
planners
policymakers
leveraging
interactive
engagement
revitalise
underutilised
Buildings,
Год журнала:
2025,
Номер
15(7), С. 1102 - 1102
Опубликована: Март 28, 2025
Urban
areas
face
escalating
environmental
and
social
challenges,
including
rising
temperatures,
air
pollution,
limited
green
spaces,
noise
driven
by
rapid
urbanization
energy-intensive
systems.
Vertical
greening
systems
(VGS)
have
emerged
as
a
promising
passive
design
strategy
to
mitigate
these
issues
enhancing
thermal
regulation,
quality,
biodiversity,
psychological
well-being.
However,
existing
research
on
VGS
remains
fragmented,
often
addressing
isolated
aspects
rather
than
adopting
holistic
approach
that
integrates
design,
fabrication,
implementation,
long-term
performance
monitoring.
This
study
employs
systematic
literature
review
(SLR)
comprehensively
analyze
technological
advancements
in
simulation,
maintenance
within
research.
Key
gaps
identified
include
the
lack
of
an
integrated
design–simulation–optimization
workflow,
limiting
ability
improve
efficiently.
By
synthesizing
current
knowledge
proposing
future
directions,
this
aims
advance
scalable
adaptable
solution
for
urban
optimizing
its
functionality,
sustainability,
overall
effectiveness
improving
livability.
