Radiative cooling

Erbe

Atmosfaerisk spredning

Roof-albedo

Radiative cooling is a passive cooling strategy that involves the emission of infrared radiation to dissipate heat from an object or structure to the cold outer space, effectively cooling down the object without the need for energy consumption. This phenomenon exploits the thermodynamic process where an object naturally loses heat in the form of infrared radiation, a principle that is fundamental to the physics of heat transfer.

Overview

Radiative cooling occurs naturally in all materials, as they emit radiation according to their temperature, a principle described by Planck's law. The Earth, for instance, continuously radiates heat absorbed from the Sun back into space, which is a critical component of the planet's energy balance. The concept of radiative cooling as a technology aims to enhance this natural process to cool buildings, vehicles, and other objects below the ambient air temperature, especially during the night, without consuming electricity or emitting greenhouse gases.

Mechanism

The mechanism of radiative cooling involves the selective emission of infrared radiation in a wavelength range where the atmosphere is transparent. The Earth's atmosphere has a "window" between 8 and 13 micrometers (μm) where it is mostly transparent to infrared radiation. Materials designed for radiative cooling are engineered to have high emissivity within this atmospheric window, allowing them to effectively radiate heat directly to the cold outer space while minimizing absorption of incoming solar radiation.

Applications

Radiative cooling has potential applications in various fields, including:

• Sustainable architecture: Incorporating materials with radiative cooling properties into buildings to reduce reliance on air conditioning.
• Agriculture: Cooling plants to protect them from heat stress, potentially increasing crop yields.
• Energy production: Improving the efficiency of solar panels by reducing their temperature through radiative cooling.

Challenges and Developments

One of the main challenges in implementing radiative cooling is its efficiency during the daytime, as the Sun's radiation can overwhelm the cooling effect. Recent developments in materials science have led to the creation of photonic structures that can reflect sunlight while still emitting infrared radiation, making daytime radiative cooling more feasible.

Future Directions

Research in radiative cooling is focusing on materials and coatings that can be easily applied to existing structures and integrating radiative cooling systems into the design of new buildings and materials. The goal is to develop cost-effective, sustainable cooling solutions that can significantly reduce global energy consumption and greenhouse gas emissions.

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