|
high-rise residential building |
5 |
|
energy consumption |
4 |
|
energy simulation |
4 |
|
high-rise office building |
4 |
|
life cycle assessment |
4 |
|
occupant behaviour |
4 |
|
air conditioning |
2 |
|
building energy |
2 |
|
building energy performance |
2 |
|
building energy use |
2 |
|
building envelope |
2 |
|
carbon emission |
2 |
|
case study |
2 |
|
cost performance |
2 |
|
dialectical system theory |
2 |
|
embodied carbon |
2 |
|
embodied energy |
2 |
|
energy conservation |
2 |
|
energy measurement |
2 |
|
energy modeling |
2 |
|
energy modelling |
2 |
|
energy performance gap |
2 |
|
energy saving measures |
2 |
|
energy use |
2 |
|
energy-saving measure |
2 |
|
green building assessment |
2 |
|
hierarchical framework |
2 |
|
high-density city |
2 |
|
high-rise |
2 |
|
high-rise building |
2 |
|
in-situ monitoring |
2 |
|
inter-building effect |
2 |
|
life cycle energy |
2 |
|
low carbon building design |
2 |
|
low energy building |
2 |
|
low-energy building |
2 |
|
multi-year simulation |
2 |
|
multiple influencing factors |
2 |
|
natural ventilation |
2 |
|
occupant behavior |
2 |
|
office building |
2 |
|
office buildings - energy conservation - china - hong kong |
2 |
|
operational carbon |
2 |
|
operational energy |
2 |
|
post occupancy evaluation |
2 |
|
residential buildings |
2 |
|
sustainability assessment |
2 |
|
sustainable development goals |
2 |
|
sustainable infrastructure |
2 |
|
system approach |
2 |
|
systematic review |
2 |
|
urban heat island |
2 |
|
zero-energy gap |
2 |
|
building energy consumption |
1 |
|
building energy modelling |
1 |
|
climate change |
1 |
|
cooling demand |
1 |
|
meteorological data |
1 |
|
typical weather data |
1 |
