Prof. Edwin Chi Yan TSO - IERE...2016 IERE – CLP-RI Hong Kong Workshop 21-24 November 2016 Energy...
Transcript of Prof. Edwin Chi Yan TSO - IERE...2016 IERE – CLP-RI Hong Kong Workshop 21-24 November 2016 Energy...
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Prof. Edwin Chi Yan TSO Research Assistant Professor of Mechanical and Aerospace Engineering
The Hong Kong University of Science and Technology
Prof. Christopher Y.H. CHAO Head and Chair Professor of Mechanical and Aerospace Engineering
The Hong Kong University of Science and Technology
22 Nov 2016
Smart Cities - A Convergence of People, Technologies and Big Data
2016 IERE – CLP-RI Hong Kong Workshop
21-24 November 2016
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Energy Usage in Hong Kong Buildings
Source: EMSD Data 2015
45%
35%
Current Status of Global Energy Usage
• High Energy Consumption Worldwide Problem
• Total Worldwide primary energy consumption
• 355EJ in 1990
• 406EJ in 2000
• 590EJ in 2020
• 687EJ in 2030
Introduction
2 Source: EIA, 2012
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By analyzing the spectral characteristics, electromagnetic (EM) waves with different wavelengths have different transmittance in the atmosphere. There is a high transmittance band called "atmospheric window", for example: 0.3 - 2.5 μm, 3.2 - 4.8 μm, 8 – 13 μm, etc. The 8-13 μm band is the one people most are interested in, because blackbody radiation is concentrated in this range at room temperature.
Working Principle of Photonic Passive Radiative Coolers
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Working Principle of Photonic Passive Radiative Coolers
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Working Principle of Photonic Passive Radiative Coolers
5500°C 0.38-0.78 μm (visible light)
Passive Radiative Cooler
Object to be cooled ~30°C 8-13 μm (longwave infrared) Temp
Most common radiative cooling phenomenon: Frost
5
Environmentally Friendly Electricity Free
-270 oC
Outer Space
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• To experimentally investigate the passive
radiative cooler with different thermal
designs (i.e. vacuum and non-vacuum
configurations);
• To test its cooling performance in the hot
and humid environment of Hong Kong.
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Raman, A. P., Anoma, M. A., Zhu, L., Rephaeli, E., & Fan, S. (2014). Nature, 515(7528), 540-4.
Multi-layer Passive Radiative Cooler
cool wafer sun conv cond radP P P P P P
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200 mm
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Cooling effect of both radiative coolers (vacuum & non-vacuum) are hardly to be achieved during the
day time operation!
Day Time (Clear sky + Sunny)
Very cloudy at night the overall cooling performance is
poor no matter which coolers are.
~ 6 - 7 oC
~ 1 - 2 oC
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Night Time (Clear + Cloudy)
~ 5 - 6 oC ~ 1 - 2 oC
Clear Cloudy
Cooling effect can be achieved during the night!
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Clear sky for a few hours
Maximum temperature difference ≈ 5 - 6 oC
Mostly cloudy at Night & Partly Sunny at Day
Night Day
Similar results are obtained comparing to the previous 2 slides!
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Very cloudy at night (cooling performance is limited)
Just about 1.5 oC temperature difference!
Very Cloudy at Night & Partly Sunny at Day
Weather plays a major role on the cooling performance of the passive radiative cooler!
Night Day
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≈ 6 oC (constantly)
Very Clear Sky at Night & Mostly Sunny at Day
Night Day
≈ 6 - 7 oC
≈ 1 - 2 oC
Non-vacuum
Vacuum
Black Body
Polished Copper Plate
Ambient Air Temp
Solar Intensity
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Cooling Power of the Radiative Cooler (non-vacuum)
≈ 1.2 W (≈ 38 W/m2)
Cloudy during this period The temperature is increased.
Most of the time, the temperature difference ≈ 6 oC (radiative cooler non-vacuum Vs ambient air temperature)!
Cooling Capacity
Night
Day Mostly Clear Sky at Night & Sunny at Day
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Conclusions • Both passive radiative coolers with vacuum and non-vacuum design
were unable to provide a cooling effect under direct sunlight.
• Although vacuum design cannot provide the cooling effect during the daytime operation, its outcome is much better than that of the non-vacuum design.
• Local weather plays a major role on the cooling performance of the passive radiative cooler.
• The passive radiative cooler with non-vacuum design can cool the ambient air temperature during night time (i.e. reducing the ambient air temperature by about 7 oC), producing a cooling power of 1.2 W (i.e. 38 W/m2) under a clear night sky in Hong Kong.
• Cooling by using night radiation technique seemed to be feasible in Hong Kong, but there remains much work to successfully produce the cooling effect under direct sunlight in Hong Kong’s climate.
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