A review on multi-objective optimization of building performance - Insights from bibliometric analysis
Heliyon,
Год журнала:
2025,
Номер
11(4), С. e42480 - e42480
Опубликована: Фев. 1, 2025
The
optimization
of
building
performance
has
gained
significant
attention
over
the
past
two
decades,
driven
by
need
for
energy
efficiency,
occupant
comfort,
and
environmental
sustainability.
This
paper
conducts
a
comprehensive
bibliometric
analysis
multi-objective
(MOO)
performance,
spanning
research
publications
from
2003
to
2023.
Utilizing
advanced
tools
such
as
CiteSpace,
VoSviewer,
Bibliometrix,
we
analyzed
1604
documents
Web
Science
Core
Collection
map
collaborative
networks,
trends,
citation
patterns.
study
identifies
notable
advancements
in
integration
sophisticated
algorithms,
including
genetic
algorithms
particle
swarm
(PSO),
with
simulation
platforms
like
EnergyPlus
MATLAB,
while
utilizing
Artificial
Neural
Networks
(ANN)
enhanced
predictive
capabilities.
These
integrations
have
markedly
efficiency
accuracy
optimizing
key
metrics,
thermal
indoor
air
quality
(IAQ),
cost-effectiveness.
China
United
States
emerged
leading
contributors,
higher
education
institutions
playing
critical
role
outputs.
Key
hotspots
identified
include
consumption,
life
cycle
assessment,
simulation-based
optimization.
effectiveness
managing
complex
problems
led
their
widespread
adoption.
Looking
forward,
future
is
anticipated
focus
on
development
more
integrated
intelligent
that
leverage
real-time
data
user
behavior,
thus
improving
adaptability
sustainability
provides
detailed
insight
into
evolution
current
trends
MOO
research,
laying
strong
foundation
investigations
aimed
at
advancing
context
Язык: Английский
Kinetic facades as a solution for educational buildings: A multi-objective optimization simulation-based study
Energy Reports,
Год журнала:
2025,
Номер
13, С. 3915 - 3928
Опубликована: Апрель 1, 2025
Язык: Английский
Green intelligent building design based on integrated photovoltaic/thermal building
International Journal of Renewable Energy Development,
Год журнала:
2025,
Номер
14(3), С. 485 - 494
Опубликована: Март 19, 2025
With
the
increasingly
prominent
contradiction
between
energy
consumption
and
environmental
governance,
integrated
photovoltaic/thermal
building
system
has
broad
development
prospects
in
conservation.
However,
improper
placement
of
photovoltaic
solar
thermal
collectors
results
inability
systems
to
maximize
conversion.
In
order
combine
photoelectric
photothermal
technology
with
architectural
design,
realize
efficient
conversion
utilization
energy,
reduce
dependence
on
traditional
sources,
consumption,
research
based
comprehensive
building,
designed
an
system,
optimized
for
different
light
resources
conditions
collectors.
The
achieved
zero
operation
when
total
winter
was
798.92kW·h.
cumulative
power
supply
heat
generation
throughout
were
214.63kW·h
79.68kW·h.
This
study
uses
replace
roof
coverings
or
insulation
layers,
which
declines
impact
buildings,
avoids
duplicate
investment
cuts
cost.
can
improve
efficiency,
meet
heating
needs,
enhance
resource
pollution,
promote
sustainable
construction
industry
Язык: Английский
A review of multi objective optimization in sustainable architecture: enhancing energy efficiency through dynamic facades
Jamshed V. Bhote,
Trupti Ravindra Chauhan
Asian Journal of Civil Engineering,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 14, 2025
Язык: Английский
A novel mathematical control algorithm (HNU Shading) for different window shades based on HNU solar model
Energy and Buildings,
Год журнала:
2024,
Номер
unknown, С. 115101 - 115101
Опубликована: Ноя. 1, 2024
Язык: Английский
Development of a Method for Evaluating the Influence of Building Facade Form on Its Potential for Solar Radiation Acquisition
Energies,
Год журнала:
2024,
Номер
17(24), С. 6394 - 6394
Опубликована: Дек. 19, 2024
Studying
the
potential
of
buildings
for
utilizing
solar
radiation
would
be
helpful
to
decrease
energy
consumption
buildings.
The
acquisition
(SRA)
building
facades
can
used
characterize
building’s
SRA
potential.
A
review
existing
literature
shows
that
few
performance
indicators
have
been
established
specifically
evaluate
and
guide
design
facade
form
from
perspective
This
study
explores
how
affect
their
Two
new
(ρ
value—the
surface
density
received
by
facades—and
α
correction
coefficient
receiving
in
concave
part
facade)
one
path
were
constructed
facades.
It
was
found
ρ
values
reflect
upper
limit
region
itself
serve
as
a
basis
measuring
region.
is
only
related
shapes
not
sizes,
larger
value
building,
stronger
its
facade’s
receive
radiation.
intuitively
show
discount
when
adding
into
architectural
design.
At
same
time,
extent
due
elements
elucidated,
which
help
minimize
loss
designing
process.
plans
(which
directly
relate
but
sizes.
facade,
method
identifying
proper
range
calculating
standard
proposed
utilized
Lanzhou
city
an
example.
reveals
that,
city,
maximum
(ρmax)
670.98
kwh/m2
average
(ρave)
592.47
kwh,
basic
situation
buildings’
potentials
this
city.
For
parts
triangular
specific
region,
offset
has
almost
no
effect
on
value.
When
triangular,
further
south
(rectangular
up
30°
southwest),
smaller
CCS,
higher
HWR,
coefficient,
greater
Язык: Английский
Multi-Objective Optimization Design for Cold-Region Office Buildings Balancing Outdoor Thermal Comfort and Building Energy Consumption
Energies,
Год журнала:
2024,
Номер
18(1), С. 62 - 62
Опубликована: Дек. 27, 2024
Performance
parameters
and
generative
design
applications
have
redefined
the
human–machine
collaborative
relationship,
challenging
traditional
architectural
paradigms
guiding
process
toward
a
performance-based
transformation.
This
study
proposes
multi-objective
optimization
(MOO)
approach
based
on
performance
simulation,
utilizing
Grasshopper-EvoMass
platform.
The
Non-dominated
Sorting
Genetic
Algorithm
II
(NSGA-II)
is
applied
to
coordinate
two
metrics—outdoor
thermal
comfort
building
energy
loads—for
of
design.
results
indicate
that
(1)
workflow
established.
Compared
baseline
design,
optimized
form
shows
significant
improvement
in
performance.
Pareto
optimal
solutions,
under
2022
meteorological
conditions,
demonstrate
an
annual
efficiency
16.55%,
outdoor
neutrality
ratio
increases
by
1.11%.
These
suggest
effectively
balances
loads
comfort.
(2)
A
total
1500
solutions
were
generated,
from
which
16
selected
through
front
method.
resulting
layouts
provide
multiple
feasible
configurations
for
early-stage
phase.
Язык: Английский