Advances in engineering research/Advances in Engineering Research,
Journal Year:
2024,
Volume and Issue:
unknown, P. 303 - 312
Published: Jan. 1, 2024
Urban
microclimates
are
closely
related
to
the
indoor
living
environment
of
residents.Factors
affecting
microclimate
diverse,
including
building
design,
urban
form,
heat
island
effect,
and
climate
change.However,
most
study
ignored
interaction
multiple
factors
only
considered
role
a
single
dimension.How
2D
3D
characteristics
land
use
interact
influence
was
yet
unknown.In
this
study,
impact
form
quantified
on
under
joint
action
two
dimensions.And
we
combined
five
typical
groups
in
Nanjing
with
six
types
30
group
models,
simulated
models
by
Envi-met,
explored
linear
regression
models.The
results
showed
that
effect
wind
speed,
temperature
relative
humidity
varies
significantly
across
types.These
findings
provide
theoretical
support
for
planners
researchers
improve
from
perspectives.
Building and Environment,
Journal Year:
2024,
Volume and Issue:
263, P. 111855 - 111855
Published: July 17, 2024
With
climate
change
affecting
buildings
differently
across
various
local
climates,
there's
a
heightened
focus
on
microclimates
and
their
impact
building
energy
consumption.
Urban
the
buildings'
dynamics
by
influencing
weather
patterns
while
operations
affect
these
through
feedback.
This
paper
provides
comprehensive
review
of
tools
applications
used
for
examining
feedback
interaction
between
operation
energy,
urban
microclimate.
study
collects,
analyses,
classifies
related
to
Building
Energy
Modeling
(UBEM)
Climate
(UCM)
particularly
focuses
combination
Multi-Domain
Scale
(MD-USEM),
enabling
efficient
information
exchange
microclimate
models.
The
building-microclimate
may
occur
as
either
one-way
or
two-way
interaction,
distinction
that
is
thoroughly
examined
in
final
section
with
an
in-depth
analysis
relevant
literature.
Buildings,
Journal Year:
2025,
Volume and Issue:
15(3), P. 450 - 450
Published: Jan. 31, 2025
Urban
heat
islands
(UHIs)
increase
urban
warming
and
reduce
outdoor
thermal
comfort
due
to
changing
surface
characteristics
climate
change.
This
study
investigates
the
role
of
green
walls
(GWs)
in
mitigating
UHI,
improving
comfort,
reducing
carbon
emissions
under
current
future
(2050)
scenarios.
Focusing
on
Via
della
Consolata,
Turin,
Italy,
combines
remote
sensing
for
UHI
detection
numerical
simulations
analysis
during
seasonal
extremes.
The
results
show
that
GWs
slightly
air
temperatures,
with
a
maximum
decrease
1.6
°C
winter
(2050),
have
cooling
effects
mean
radiant
temperature
(up
2.27
°C)
peak
summer
solar
radiation.
also
improve
Universal
Thermal
Climate
Index
by
0.55
2050.
energy
shows
emission
intensity
is
reduced
31%,
despite
heating
demand
increasing
45%.
highlights
potential
adaptation,
particularly
dense
environments
low
sky
view
factors.
Seasonal
optimization
crucial
balance
demand.
As
cities
face
rising
temperatures
waves,
integration
offers
sustainable
strategy
microclimate,
emissions,
mitigate
UHI.
Buildings,
Journal Year:
2025,
Volume and Issue:
15(9), P. 1450 - 1450
Published: April 24, 2025
Three-dimensional
architectural
greening
(TAG)
enables
the
integration
of
ecological,
economic,
and
social
advantages
via
effective
use
multidimensional
space
in
a
variety
forms,
making
it
significant
method
for
enhancing
spatial
quality
densely
populated
cities.
TAG
technology
has
expanded
scope
capabilities
urban
greening.
It
ability
to
provide
green
space,
improve
ecology
aesthetics,
alleviate
conflict
between
limited
land
resources
rising
demand
throughout
urbanization
process.
Currently,
there
is
lack
systematic
assessment
approach
that
focuses
on
public’s
visual
perception
TAG.
critical
focus
advances
approaches
create
“people-oriented
driven”
evaluation
system
serves
as
scientific
foundation
three-dimensional
initiatives.
First,
this
study
created
database
300
cases
selected
classic
using
screening,
classification,
sampling.
Second,
three
experiments
were
set
up
study,
including
semantic
differential
(SD)
method,
scenic
beauty
estimation
(SBE)
subjective
evaluation,
eye-tracking
experiment
objective
evaluation.
Finally,
compared
evaluations
demonstrated
both
two
had
certain
amount
accuracy.
also
investigated
relationship
features
public
perceptions
methods
such
factor
correlation
analysis.
The
evaluating
based
are
presented
study—two
one
objective—use
standardized
images,
quick
simple
use,
make
drawbacks
conventional
strategies
like
indirectness,
inefficiency,
time-consuming
data
collection.
They
form
solid
real-world
application
categorization
prediction.
In
addition
being
adaptable
wide
range
settings,
these
paths—subjective
evaluation—can
be
integrated
complement
another
references
future
designs
decision
making.
Buildings,
Journal Year:
2024,
Volume and Issue:
14(12), P. 3840 - 3840
Published: Nov. 29, 2024
Architectural
vertical
green
walls
can
mitigate
the
urban
heat
island
effect,
provide
shade
and
cooling,
reduce
energy
consumption,
improve
a
microclimate,
increase
indoor
comfort.
However,
an
excessive
pursuit
of
high
coverage
may
diminish
benefit
ratio
adversely
affect
ventilation
lighting.
Field
measurements
were
conducted
in
hot
humid
Guangzhou
area
to
investigate
thermal
benefits
external
with
varying
diverse
layouts,
encompassing
effects
such
as
shading,
insulation,
humidification.
Analyses
using
ENVI-met,
orthogonal
experiments,
SPSS
quantify
moderating
planted
(PGC),
leaf
density
(LAD),
air
interstitial
layers
on
environmental
benefits.
The
results
indicated
that
cooling
humidifying
100%
PGC
75%
comparable
superior
those
50%
PGC,
yet
outperformed
terms
Among
layout
modes,
horizontal
was
most
effective
for
humidification,
followed
by
point
layout,
being
least
effective.
A
global
sensitivity
analysis
revealed
had
greatest
impact
wall
outdoor
LAD
significantly
influenced
width
minor
impact,
two
architectural
greening
design
ratios
×
4.60
2.70
particularly
Incorporating
or
point-like
layouts
enhance
façade
diversity
while
preserving
desired
benefits,
thereby
contributing
overall
aesthetics
building.
