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Cosa (chi) è radiative$66418$ - definizione
![[[Desert climate]]s have the highest radiative cooling potential due to low humidity and cloud cover.<ref name=":21" />](https://commons.wikimedia.org/wiki/Special:FilePath/BW climate.png?width=200 "[[Desert climate]]s have the highest radiative cooling potential due to low humidity and cloud cover.<ref name=\":21\" />")
 oxide 2.jpg?width=200 "220x220px")
![A PDRC installed on a roof in [[Kolkata]] exhibited a nearly 4.9ᵒC decrease in surface ground temperatures (with an average reduction of 2.2ᵒC).<ref name=":13" />](https://commons.wikimedia.org/wiki/Special:FilePath/Buildings in Kolkata.jpg?width=200 "A PDRC installed on a roof in [[Kolkata]] exhibited a nearly 4.9ᵒC decrease in surface ground temperatures (with an average reduction of 2.2ᵒC).<ref name=\":13\" />")
![[[Temperate climate]]s have a moderate to high radiative cooling potential.<ref name=":21" />](https://commons.wikimedia.org/wiki/Special:FilePath/Koppen-Geiger Map C present.svg?width=200 "[[Temperate climate]]s have a moderate to high radiative cooling potential.<ref name=\":21\" />")
![[[Solar cell efficiency]] can be improved with PDRC application to reduce overheating and degradation of cells.<ref name="Heo 2022 Ju lee"/>](https://commons.wikimedia.org/wiki/Special:FilePath/Silicon heterojunction solar cell.jpg?width=200 "[[Solar cell efficiency]] can be improved with PDRC application to reduce overheating and degradation of cells.<ref name=\"Heo 2022 Ju lee\"/>")
![outgoing infrared radiation]] (shown in orange) and minimize the absorption of [[Solar Radiation]] (shown in yellow).](https://commons.wikimedia.org/wiki/Special:FilePath/The-NASA-Earth's-Energy-Budget-Poster-Radiant-Energy-System-satellite-infrared-radiation-fluxes.jpg?width=200 "outgoing infrared radiation]] (shown in orange) and minimize the absorption of [[Solar Radiation]] (shown in yellow).")
![Modifying PDRCs with [[vanadium dioxide]] (pictured) can achieve temperature-based 'switching' from cooling to heating to mitigate the "overcooling" effect.<ref name=":54" />](https://commons.wikimedia.org/wiki/Special:FilePath/VO2 crystal.jpg?width=200 "Modifying PDRCs with [[vanadium dioxide]] (pictured) can achieve temperature-based 'switching' from cooling to heating to mitigate the \"overcooling\" effect.<ref name=\":54\" />")
![Global map of average [[annual precipitation]]. The darker the color, the higher the precipitation.](https://commons.wikimedia.org/wiki/Special:FilePath/World precip annual.png?width=200 "Global map of average [[annual precipitation]]. The darker the color, the higher the precipitation.")
![Planck curves]].](https://commons.wikimedia.org/wiki/Special:FilePath/ModtranRadiativeForcingDoubleCO2.png?width=200 "Planck curves]].")
![alt=Warming contributions of various GHGs, agents, factors [name the year that the contributions pertain to] [*correct reference given under the 'Talk' tab*]. Plus, the figure is inaccurate; at least wrt. to methane.](https://commons.wikimedia.org/wiki/Special:FilePath/Physical Drivers of climate change.svg?width=200 "alt=Warming contributions of various GHGs, agents, factors [name the year that the contributions pertain to] [*correct reference given under the 'Talk' tab*]. Plus, the figure is inaccurate; at least wrt. to methane.")
Wikipedia
Radiative transfer (also called radiation transport) is the physical phenomenon of energy transfer in the form of electromagnetic radiation. The propagation of radiation through a medium is affected by absorption, emission, and scattering processes. The equation of radiative transfer describes these interactions mathematically. Equations of radiative transfer have application in a wide variety of subjects including optics, astrophysics, atmospheric science, and remote sensing. Analytic solutions to the radiative transfer equation (RTE) exist for simple cases but for more realistic media, with complex multiple scattering effects, numerical methods are required. The present article is largely focused on the condition of radiative equilibrium.
