Difference between revisions of "Night Radiative Cooling (PA Technology)"
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{{Powering Agriculture Technology Database | {{Powering Agriculture Technology Database | ||
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|PAT Name=Night Radiative Cooling | |PAT Name=Night Radiative Cooling | ||
+ | |PAT Picture=Radiative Cooling.jpg | ||
|PAT Type RE=Renewable Energy | |PAT Type RE=Renewable Energy | ||
|PAT Type Alternative=Alternative Methodology | |PAT Type Alternative=Alternative Methodology | ||
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|PAT Dev Region North America= | |PAT Dev Region North America= | ||
|PAT Dev Country North America= | |PAT Dev Country North America= | ||
+ | |PAT Dev Region Not Available= | ||
|PAT Dep Region Worldwide=Worldwide | |PAT Dep Region Worldwide=Worldwide | ||
|PAT Dep Region South Asia= | |PAT Dep Region South Asia= | ||
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|PAT Dep Region North America= | |PAT Dep Region North America= | ||
|PAT Dep Country North America= | |PAT Dep Country North America= | ||
+ | |PAT Dep Region Not Available= | ||
|PAT Dep Pot Region Worldwide=Worldwide | |PAT Dep Pot Region Worldwide=Worldwide | ||
|PAT Dep Pot Region South Asia= | |PAT Dep Pot Region South Asia= | ||
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|PAT Dep Pot Region North America= | |PAT Dep Pot Region North America= | ||
|PAT Dep Pot Country North America= | |PAT Dep Pot Country North America= | ||
+ | |PAT Dep Pot Region Not Available= | ||
|PAT Manufacturers=Different activities and basic technologies, see links below; | |PAT Manufacturers=Different activities and basic technologies, see links below; | ||
|PAT Economics=Uses natural cooling potentials, in some cases only a few electricity (for small pumps) and no fuels necessary; | |PAT Economics=Uses natural cooling potentials, in some cases only a few electricity (for small pumps) and no fuels necessary; | ||
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http://www.nhbs.com/title/view/175686 | http://www.nhbs.com/title/view/175686 | ||
+ | |PAT quality check=Yes | ||
|PAT Category=Cooling | |PAT Category=Cooling | ||
|PAT Pumping= | |PAT Pumping= |
Latest revision as of 17:00, 28 December 2014
Name of technology example: | Type | |
Night Radiative Cooling | ☐ Energy Efficiency ☑ Renewable Energy ☑ Alternative Methodology |
Description | All objects constantly emit and absorb radiant energy. At night, the long-wave radiation from the clear sky is less than the long-wave infrared radiation emitted from a building, thus there is a net flow to the sky. Since the roof provides the greatest surface visible to the night sky, designing the roof to act as a radiator is an effective strategy.
There are two types of radiative cooling strategies that utilize the roof surface: direct and indirect. Direct radiant cooling - In a building designed to optimize direct radiation cooling, the building roof acts as a heat sink to absorb the daily internal loads. The roof acts as the best heat sink because it is the greatest surface exposed to the night sky. Radiate heat transfer with the night sky will remove heat from the building roof, thus cooling the building structure. Roof ponds are an example of this strategy. The roof pond design became popular with the development of the Sky thermal system designed by Harold Hay in 1977. There are various designs and configurations for the roof pond system but the concept is the same for all designs. The roof uses water, either plastic bags filled with water or an open pond, as the heat sink while a system of movable insulation panels regulate the mode of heating or cooling. During daytime in the summer, the water on the roof is protected from the solar radiation and ambient air temperature by movable insulation, which allows it to serve as a heat sink and absorb, though the ceiling, the heat generated inside. At night, the panels are retracted to allow nocturnal radiation between the roof pond and the night sky, thus removing the stored heat from the day’s internal loads. In winter, the process is reversed so that the roof pond is allowed to absorb solar radiation during the day and release it during the night into the space below. Indirect radiant cooling - A heat transfer fluid removes heat from the building structure through radiate heat transfer with the night sky. A common design for this strategy involves a plenum between the building roof and the radiator surface. Air is drawn into the building through the plenum, cooled from the radiator, and cools the mass of the building structure. During the day, the building mass acts as a heat sink. (Source:http://en.wikipedia.org/wiki/Passive_cooling#Radiative_cooling) | ||||||||||||||||||||||||||||
Technology for the Application of |
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Primarily Relevant for the following Agricultural Value Chain Steps |
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Primarily Relevant for the following Agricultural Value Chain Activities |
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Primarily Implemented in the following Commodity Groups |
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Region & Country of Development |
None ☐ Africa ☐ South Asia ☐ East Asia & The Pacific ☐ Europe & Central Asia ☐ Latin America & The Caribbean ☐ Middle East & North Africa ☐ North America ☐ N/A: / | ||||||||||||||||||||||||||||
Region & Country of Current Deployment |
Worldwide ☑ Africa ☑ South Asia ☑ East Asia & The Pacific ☑ Europe & Central Asia ☑ Latin America & The Caribbean ☑ Middle East & North Africa ☑ North America ☐ N/A: / | ||||||||||||||||||||||||||||
Region & Country of Potential Deployment |
Worldwide ☑ Africa ☑ South Asia ☑ East Asia & The Pacific ☑ Europe & Central Asia ☑ Latin America & The Caribbean ☑ Middle East & North Africa ☑ North America ☐ N/A: / | ||||||||||||||||||||||||||||
Manufacturers | Different activities and basic technologies, see links below; | ||||||||||||||||||||||||||||
Economics | Uses natural cooling potentials, in some cases only a few electricity (for small pumps) and no fuels necessary; | ||||||||||||||||||||||||||||
Technology Development Level | Research and development and first pilot installations; | ||||||||||||||||||||||||||||
Required Maintenance Technical Level | Basic: Technology can be maintained through its life cycle with common tools and a universally understood maintenance manual; | ||||||||||||||||||||||||||||
Required Infrastructure for Deployment | Low: Technology can be developed with less common tools, low development level supporting technologies and moderately trained personnel; | ||||||||||||||||||||||||||||
Required Resources during manufacture | Metal, plastics, glass, films, depending on type and developed production facility | ||||||||||||||||||||||||||||
Required Resources during operation | In some cases electricity; | ||||||||||||||||||||||||||||
Deployment Level |
Research and development and Prototype testing; | ||||||||||||||||||||||||||||
Deployment Capability and Potential | High: The technology can be widely deployed limited only by education | ||||||||||||||||||||||||||||
Requirements for Deployment | Independent: Fully autonomous and self-supportingelectricity supply | ||||||||||||||||||||||||||||
Relevance for Autonomy and Food Security | Independent: Fully autonomous and self-supporting; | ||||||||||||||||||||||||||||
Environment Impacts (emissions) | Low: no direct emissions but indirect emissions; | ||||||||||||||||||||||||||||
Conformity with Bio- Cybernetic System Rules | high | ||||||||||||||||||||||||||||
Additional information / Comments | No comments. | ||||||||||||||||||||||||||||
Internal Reference | |||||||||||||||||||||||||||||
Additional Links |
http://en.wikipedia.org/wiki/Passive_cooling#Radiative_cooling http://en.wikipedia.org/wiki/Radiative_cooling http://www.asterism.org/tutorials/tut37%20Radiative%20Cooling.pdf http://www.youtube.com/watch?v=544jTj0gpqY http://cedarmountainsolar.com/nightskyradiantcooling.php?PageID=5_TrueID%3D5 http://solarwall.com/en/products/nightsolar-air-cooling.php http://www.builditsolar.com/Experimental/RadiationCool/EvaproRad.htm http://www.understandingnano.com/nanophotonic-radiative-cooling.html http://misfitsarchitecture.com/2013/03/01/its-not-rocket-science-5-night-sky-radiant-cooling/ |
"Renewable Energy, Alternative Methodology" is not in the list (Energy Efficiency, Renewable Energy, Alternative Methodology) of allowed values for the "PAT Type" property.