Recent Progress in Daytime Radiative Cooling: Is It the Air Conditioner of the Future?

Santamouris, M.; Feng, Jie

doi:10.3390/buildings8120168

Cited by 123 publications

(58 citation statements)

References 90 publications

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“…Against this backdrop, scientific breakthroughs in the field of materials sciences are expected to pave the way to new mitigation technologies. Among them, passive daytime radiative cooling ( Santamouris and Feng, 2018 ) and elastocaloric cooling ( Ulpiani et al, 2019 ) hold great promise.…”

Section: Discussionmentioning

confidence: 99%

On the linkage between urban heat island and urban pollution island: Three-decade literature review towards a conceptual framework

Ulpiani

2021

Science of The Total Environment

289

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With the doubling of urban population within the next two decades and the disproportionate growth of megacities, it is critical to explore the synergism between urban heat and pollution. In this paper, a systematic review is conducted on the existing knowledge, collected since 1990, on the link between urban heat island (UHI) and urban pollution island (UPI). Results from 16 countries and 11 Köppen-Geiger climatic zones are perused and compared to delineate methodological and experimental trends, geographical dependencies and research gaps. Detailed content analysis is conducted according to five prominent topics: i) the role of UHI on temperature-dependent chemistry, ii) the daytime/nighttime variability in the UHI-UPI interaction, iii) the role of urban geomorphic types, forms and growth schemes, iv) future trends and v) primary and secondary effects of UHI mitigation on urban air quality. Different approaches and observations are eventually harmonized to outline opportunities and challenges towards the disentanglement and/or the two-way mitigation of both phenomena. This will help governments and urban planners to deliver coping strategies and precautions towards a more salutogenic urban design.

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Section: Discussionmentioning

confidence: 99%

On the linkage between urban heat island and urban pollution island: Three-decade literature review towards a conceptual framework

Ulpiani

2021

Science of The Total Environment

289

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“…[19][20][21][22][23][24][25] Recent studies have suggested that introducing light scattering particles/cavities into a polymer matrix can increase passive daytime radiative cooling by reflecting solar radiation. [26][27][28][29] Such materials should be designed to reflect the light in the wavelength (λ) range of ≈0.3-2.5 µm but allow thermal emission into the cold outer space through the atmospheric longwave infrared (LWIR) transmission window (λ ≈ 8-13 µm). Such an all-day radiation strategy is efficient in cooling (subambient cooling of 5-6 °C), without energy consuming and pollutant releasing.…”

Section: Doi: 101002/adma202000870mentioning

confidence: 99%

Switchable Cavitation in Silicone Coatings for Energy‐Saving Cooling and Heating

et al. 2020

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Space cooling and heating currently result in huge amounts of energy consumption and various environmental problems. Herein, a switching strategy is described for efficient energy‐saving cooling and heating based on the dynamic cavitation of silicone coatings that can be reversibly and continuously tuned from a highly porous state to a transparent solid. In the porous state, the coatings can achieve efficient solar reflection (93%) and long‐wave infrared emission (94%) to induce a subambient temperature drop of about 5 °C in hot weather (≈35 °C). In the transparent solid state, the coatings allow active sunlight permeation (95%) to induce solar heating to raise the ambient temperature from 10 to 28 °C in cold weather. The coatings are made from commercially available, cheap materials via a facile, environmentally friendly method, and are durable, reversible, and patternable. They can be applied immediately to various existed objects including rigid substrates.

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“…Polymer-based radiative cooling structures are likely to be the future devices due to their significant advantage in terms of ease of manufacturability and cost. 135 However, reliability and long-term stability are the main critical challenges that will always be there. Polymer degradation with time affects their long-term high solar reflectivity.…”

Section: Future Perspective and Challengesmentioning

confidence: 99%

Recent advances and progresses in photonic devices for passive radiative cooling application: a review

Goyal

Kumar

2020

J. Nanophoton.

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This review covers the recent progress made in the nanophotonic devices-based daytime passive radiative coolers. The radiative cooling capabilities along with the structural description of various natural species are discussed. The design principle along with key characteristics of the omnidirectional solar reflectors as well as thermal adiators is discussed in detail. Several analogues planner one-dimensional and two-dimensional photonic nanostructures and their current state-of-the-art techniques have been discussed. For each kind of the photonic structure, the novelty, measurement principle, and their respective daytime radiative cooling capability are presented. The reported works and the corresponding results predict the possibility to realize an efficient and commercially viable radiator for passive radiative cooling applications.

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Recent Progress in Daytime Radiative Cooling: Is It the Air Conditioner of the Future?

Cited by 123 publications

References 90 publications

On the linkage between urban heat island and urban pollution island: Three-decade literature review towards a conceptual framework

On the linkage between urban heat island and urban pollution island: Three-decade literature review towards a conceptual framework

Switchable Cavitation in Silicone Coatings for Energy‐Saving Cooling and Heating

Recent advances and progresses in photonic devices for passive radiative cooling application: a review

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