Preliminary study of passive radiative cooling under Singapore's tropical climate
Sub-ambient cooling can be achieved through radiative coolers that selectively emit radiation within the atmospheric window (8–13 μm) to outer space and suppress absorption/emission of other wavelengths. This study explores the feasibility of adopting radiative cooling in the hot and humid climate o...
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sg-ntu-dr.10356-1553802022-02-18T06:49:28Z Preliminary study of passive radiative cooling under Singapore's tropical climate Han, Di Ng, Bing Feng Wan, Man Pun School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Radiative Cooling Solar Irradiance Sub-ambient cooling can be achieved through radiative coolers that selectively emit radiation within the atmospheric window (8–13 μm) to outer space and suppress absorption/emission of other wavelengths. This study explores the feasibility of adopting radiative cooling in the hot and humid climate of Singapore through both numerical and experimental approaches. A theoretical simulation based on the heat transfer balance is first proposed to obtain the cooling power of the radiative cooler considering different solar spectral irradiance and total water vapor column. The larger solar irradiance in Singapore, especially within the ultraviolet and visible light spectrum where the absorbance of the material is relatively high, could counteract its cooling effects. Moreover, the increased atmospheric radiation induced by higher humidity and temperatures in Singapore could worsen cooling performances of the radiative material. Next, experimental investigations were conducted by measuring the steady-state temperatures of two radiative coolers (photonic radiative cooler and enhanced specular reflector film) under three typical weather conditions in Singapore, namely clear, partly cloudy and cloudy skies. While both radiative coolers were unable to achieve daytime cooling performance on a clear day, the enhanced specular reflector (ESR) film with higher solar reflectance can reach sub-ambient temperatures on a cloudy day. When it comes to night-time, the steady-state temperature of the photonic radiative cooler and ESR film was about 3.5 °C and 5 °C lower than ambient, respectively. Ministry of Education (MOE) Nanyang Technological University Accepted version This study was funded by the Singapore Ministry of Education through grant no. 2018-T1-001-070 and supported through a start-up grant by Nanyang Technological University M408202 2022-02-18T06:49:28Z 2022-02-18T06:49:28Z 2020 Journal Article Han, D., Ng, B. F. & Wan, M. P. (2020). Preliminary study of passive radiative cooling under Singapore's tropical climate. Solar Energy Materials and Solar Cells, 206, 110270-. https://dx.doi.org/10.1016/j.solmat.2019.110270 0927-0248 https://hdl.handle.net/10356/155380 10.1016/j.solmat.2019.110270 2-s2.0-85074898504 206 110270 en 2018-T1-001-070 M408202 Solar Energy Materials and Solar Cells © 2019 Elsevier B.V. All rights reserved. This paper was published in Solar Energy Materials and Solar Cells and is made available with permission of Elsevier B.V. application/pdf |
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Engineering::Mechanical engineering Radiative Cooling Solar Irradiance Han, Di Ng, Bing Feng Wan, Man Pun Preliminary study of passive radiative cooling under Singapore's tropical climate |
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Sub-ambient cooling can be achieved through radiative coolers that selectively emit radiation within the atmospheric window (8–13 μm) to outer space and suppress absorption/emission of other wavelengths. This study explores the feasibility of adopting radiative cooling in the hot and humid climate of Singapore through both numerical and experimental approaches. A theoretical simulation based on the heat transfer balance is first proposed to obtain the cooling power of the radiative cooler considering different solar spectral irradiance and total water vapor column. The larger solar irradiance in Singapore, especially within the ultraviolet and visible light spectrum where the absorbance of the material is relatively high, could counteract its cooling effects. Moreover, the increased atmospheric radiation induced by higher humidity and temperatures in Singapore could worsen cooling performances of the radiative material. Next, experimental investigations were conducted by measuring the steady-state temperatures of two radiative coolers (photonic radiative cooler and enhanced specular reflector film) under three typical weather conditions in Singapore, namely clear, partly cloudy and cloudy skies. While both radiative coolers were unable to achieve daytime cooling performance on a clear day, the enhanced specular reflector (ESR) film with higher solar reflectance can reach sub-ambient temperatures on a cloudy day. When it comes to night-time, the steady-state temperature of the photonic radiative cooler and ESR film was about 3.5 °C and 5 °C lower than ambient, respectively. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Han, Di Ng, Bing Feng Wan, Man Pun |
| format |
Article |
| author |
Han, Di Ng, Bing Feng Wan, Man Pun |
| author_sort |
Han, Di |
| title |
Preliminary study of passive radiative cooling under Singapore's tropical climate |
| title_short |
Preliminary study of passive radiative cooling under Singapore's tropical climate |
| title_full |
Preliminary study of passive radiative cooling under Singapore's tropical climate |
| title_fullStr |
Preliminary study of passive radiative cooling under Singapore's tropical climate |
| title_full_unstemmed |
Preliminary study of passive radiative cooling under Singapore's tropical climate |
| title_sort |
preliminary study of passive radiative cooling under singapore's tropical climate |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155380 |
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1725985503159779328 |