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Environmental benefits of sustainable chiller system under climate change
Fu Wing Yu
, Kwok Tai Chan
, Rachel Kam Yung Sit
Division of Science, Engineering and Health Studies (SEHS)
Research output
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Contribution to journal
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Article
›
peer-review
1
Citation (Scopus)
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Keyphrases
Climate Change
100%
Chiller System
100%
Environmental Benefits
100%
Environmental Performance
40%
Climate Change Scenarios
40%
Variable Speed Limit Control
40%
Sustainable Systems
40%
Hong Kong
20%
Coefficient of Performance
20%
Office Building
20%
Water Consumption
20%
Typical Meteorological Year
20%
Weather Files
20%
Variable Speed
20%
Building Simulation
20%
Conventional System
20%
EnergyPlus
20%
Carbon Emission Reduction
20%
Weather Data
20%
Cooling Energy
20%
Electricity Consumption
20%
Commercial Buildings
20%
Electricity Saving
20%
Average Coefficient
20%
Global Warming
20%
Water Saving
20%
Engineering
Chiller
100%
Climate Change
100%
Environmental Benefit
100%
Environmental Performance
40%
Climate Change Scenario
40%
Simulation Result
20%
Coefficient of Performance
20%
Energy Engineering
20%
Office Buildings
20%
Typical Meteorological Year
20%
Conventional System
20%
EnergyPlus
20%
Simulation Program
20%
Building Simulation
20%
Commercial Building
20%
Electricity Saving
20%
Global Warming
20%