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Estimating heat flux transmission of vertical greenery ecosystem
Chi Yung JIM
, Hongming HE
Department of Social Sciences (SSC)
Research output
:
Contribution to journal
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Articles
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peer-review
103
Citations (Scopus)
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Keyphrases
Absorbance
33%
Building Envelope
33%
Canopy Reflectance
33%
Canopy Transmittance
33%
Compact City
33%
Copyright
33%
Diffuse Solar Radiation
33%
Direct Solar Radiation
66%
Eco-friendly Alternatives
33%
Evapotranspiration
33%
Flux Loss
33%
Global Solar Radiation
66%
Green Roof
33%
Green Wall
100%
Heat Flux
100%
Heat Flux Effect
33%
Heat Temperature
33%
High Efficiency
33%
Higher Coefficients
33%
Low Heat Flux
33%
Model Matching
33%
Model Simulation
33%
North Wall
66%
Nurture
33%
Other-benefit
33%
Radiation Condition
33%
Radiation Transmission
33%
Rainfall
66%
Shielding Effectiveness
33%
Solar Radiation
33%
Solar Weather
33%
Temperature Variation
33%
Thermal Benefit
33%
Thermal Shield
33%
Thermodynamics
66%
Transmission Model
33%
Transmission Process
33%
Transmission Properties
33%
Urban Greening
33%
Vertical Greenery System
100%
Wall Radiation
33%
Weather Conditions
33%
Earth and Planetary Sciences
Evapotranspiration
20%
Field Experiment
20%
Green Roof
20%
Heat Flux
100%
Heat Shielding
20%
Reflectance
20%
Solar Radiation
100%
Temperature Variation
20%
Transmittance
20%
Vegetation
20%
Weather Condition
20%
Agricultural and Biological Sciences
Evapotranspiration
20%
Solar Radiation
100%